DNA molecules that code for enzymes involved in starch synthesis, vectors, bacteria, transgenic plant cells and plants containing said molecules

ABSTRACT

The present invention relates to DNA molecules encoding enzymes which are involved in the starch synthesis of plants. These enzymes represent two different isotypes of the soluble starch synthase as well as a starch granule-bound starch synthase. This invention furthermore relates to vectors, bacteria, as well as to plant cells transformed with the DNA molecules described and to plants regenerated from them. Furthermore, the invention relates to starch that can be isolated from plants having an increased or reduced activity of the proteins described.

This application is a 371 of PCT/EP95/04415 filed Nov. 9, 1995.

FIELD OF THE INVENTION

The present invention relates to DNA molecules encoding enzymes which are involved in the starch synthesis of plants. These enzymes represent two different isotypes of the soluble starch synthase as well as a starch granule-bound starch synthase.

This invention furthermore relates to vectors, bacteria, as well as to plant cells transformed with the DNA molecules described and to plants regenerated from them.

Also, processes for the production of transgenic plants are described which, due to the introduction of DNA molecules encoding soluble or starch granule-bound starch synthases, synthesize a starch which is modified as regards its properties.

BACKGROUND OF THE INVENTION

With respect to its increasing significance which has recently been ascribed to vegetal substances as regenerative sources of raw materials, one of the objects of biotechnological research is to try to adapt vegetal raw materials to the demands of the processing industry. In order to enable the use of modified regenerative raw materials in as many areas as possible, it is furthermore important to obtain a large variety of substances.

Apart from oils, fats and proteins, polysaccharides constitute the essential regenerative raw materials derived from plants. Apart from cellulose, starch maintains an important position among the polysaccharides, being one of the most significant storage substances in higher plants. Besides maize, rice and wheat, potato plays an important role as starch producer.

The polysaccharide starch is a polymer made up of chemically homogeneous basic components, namely the glucose molecules. However, it constitutes a highly complex mixture from various types of molecules which differ from each other in their degree of polymerization and in the degree of branching of the glucose chains. Therefore, starch is not a homogeneous raw material. One differentiates particularly between amylose-starch, a basically non-branched polymer made up of α-1,4-glycosidically branched glucose molecules, and amylopectin-starch which in turn is a complex mixture of various branched glucose chains. The branching results from additional α-1,6-glycosidic interlinkings. In plants which are typically used for starch production, such as, e.g., maize or potato, the synthesized starch consists of about 25% of amylose starch and of about 75% of amylopectin starch.

In order to enable as wide a use of starch as possible, it seems to be desirable that plants be provided which are capable of synthesizing modified starch which is particularly suitable for various uses. A possibility of providing such plants is--apart from breeding--in the specific genetic modification of the starch metabolism of starch-producing plants by means of recombinant DNA techniques. However, a prerequisite therefor is to identify and to characterize the enzymes involved in the starch synthesis and/or the starch modification as well as to isolate the respective DNA molecules encoding these enzymes.

The biochemical pathways which lead to the production of starch are basically known. The starch synthesis in plant cells takes place in the plastids. In photosynthetically active tissues these are the chloroplasts, in photosynthetically inactive, starch-storing tissues the amyloplasts.

The most important enzymes involved in starch synthesis are starch synthases as well as branching enzymes. In the case of starch synthases various isotypes are described which all catalyze a polymerization reaction by transferring a glucosyl residue of ADP-glucose to α-1,4-glucans. Branching enzymes catalyze the introduction of α-1,6 branchings into linear α-1,4-glucans.

Furthermore, it is discussed that other enzyme activities, such as hydrolytic or phosphorolytic activities, are involved in the synthesis of starch (Preiss in Oxford Survey of Plant Molecular and Cell Biology, Oxford University Press, Vol. 7 (1991), 59-114). It can furthermore not be precluded that the "R enzyme", or the so-called disproportionizing enzyme, and the starch phosphorylases also are involved in starch synthesis, although these enzymes so far have been connected with the degradation of starch.

Starch synthases may be divided up in two groups: the granule-bound starch synthases (GBSS), which are mainly present bound to starch granules but also in soluble form, and the soluble starch synthases (SSS). Within these classifications, various isotypes are described for various species of plants. These isotypes differ from each other in their dependency on primer molecules (so-called "primer dependent" (type II) and "primer independent" (type I) starch synthases).

So far only in the case of the isotype GBSS I its exact function during starch synthesis has been successfully determined. Plants in which this enzyme activity has been strongly or completely reduced, synthesize starch free of amylose (a so-called "waxy" starch) (Shure et al., Cell 35 (1983), 225-233; Visser et al., Mol. Gen. Genet. 225 (1991) , 289-296; WO 92/11376); therefore this enzyme has been assigned a decisive role in synthesizing amylose-starch. This phenomenon is also observed in the cells of the green alga Chlamydomonas reinhardtii (Delrue et al., J. Bacteriol. 174 (1992), 3612-3620). In the case of Chlamydomonas it was furthermore demonstrated that GBSS I is not only involved in the synthesis of amylose but also has a certain influence on amylopectin synthesis. In mutants which do not show any GBSS I activity a certain fraction of the normally synthesized amylopectin, exhibiting long chain glucans, is missing.

The functions of the other isotypes of the granule-bound starch synthases, particularly GBSS II, and of the soluble starch synthases are so far not clear. It is assumed that soluble starch synthases, together with branching enzymes, are involved in the synthesis of amylopectin (see, e.g., Ponstein et al., Plant Physiol. 92 (1990), 234-241) and that they play an important role in the regulation of starch synthesis rate.

For potato, the isotypes GBSS I, GBSS II, as well as two or three isotypes of the soluble starch synthases, which so far have not been characterized further, have been identified (Ponstein et al. Plant Physiol. 92 (1990), 234-241; Smith et al., Planta 182 (1990), 599-604; Hawker et al., Phytochemistry 11 (1972), 1287-1293). Also for pea a GBSS II could be found (Dry et al., The Plant Journal 2,2 (1992), 193-202).

A cDNA encoding GBSS I from potato as well as a genomic DNA have already been described (Visser et al., Plant Sci. 64 (1989), 185-192; van der Leij et al., Mol. Gen. Genet. 228 (1991), 240-248). So far, no nucleic acid sequences encoding further granule-bound starch synthases or one of the soluble starch synthase isotypes from potato, have been reported.

Soluble starch synthases have been identified in several other plant species apart from potato. Soluble starch synthases have for example been isolated in homogeneous form from pea (Denyer and Smith, Planta 186 (1992), 609-617) and maize (WO 94/09144). In the case of pea it was found that the isotype of the soluble starch synthase identified as SSS II is identical with the granule-bound starch synthase GBSS II (Denyer et al., Plant J. 4 (1993), 191-198). In the case of other plant species the existence of several SSS-isotypes was described by means of chromatographic methods, as for example in the case of barley (Tyynela and Schulman, Physiologia Plantarum 89 (1993) 835-841; Kreis, Planta 148 (1980), 412-416), maize (Pollock and Preiss, Arch. Biochem. Biophys. 204 (1980), 578-588) and wheat (Rijven, Plant Physiol. 81 (1986), 448-453). However, DNA sequences encoding these proteins have so far not been described.

A cDNA encoding a soluble starch synthase so far has only been described for rice (Baba et al., Plant Physiol. 103 (1993), 565-573).

SUMMARY OF THE INVENTION

In order to provide possibilities for modifying any desired starch-storing plant in such a way that they will synthesize a modified starch, respective DNA sequences encoding the various isotypes of granule-bound or soluble starch synthases have to be identified.

Therefore, it was the object of the present invention to provide DNA molecules--especially from potato--encoding enzymes involved in starch biosynthesis and by means of which genetically modified plants may be produced that show an elevated or reduced activity of those enzymes, thereby prompting a modification in the chemical and/or physical properties of the starch synthesized in these plants.

This object has been achieved by the provision of the embodiments described in the claims.

The invention therefore relates to DNA molecules encoding starch synthases, particularly such DNA molecules encoding the granule-bound starch synthases of the isotype II, as well as DNA molecules encoding soluble starch synthases.

The present invention particularly relates to DNA molecules encoding proteins with the biological activity of a granule-bound starch synthase of the isotype II (GBSSII) or a biologically active fragment of such a protein, such molecules preferably encoding proteins having the amino acid sequence indicated under Seq ID No. 8. Particularly, the invention relates to DNA molecules having the nucleotide sequence indicated under Seq ID No. 7, preferably molecules comprising the coding region indicated under Seq ID No. 7.

The subject matter of the invention are also DNA molecules encoding a GBSSII and the sequence of which differs from the nucleotide sequences of the above-described DNA molecules due to the degeneracy of the genetic code.

Furthermore, the invention relates to DNA molecules encoding GBSSII and hybridizing to any of the above-described DNA molecules. Such DNA molecules preferably are derived from starch-storing plants, particularly from dicotyledonous plants, and particularly preferred from potato.

The GBSSII proteins encoded by the DNA molecules according to the invention preferably have a molecular weight of 85±5 kD. GBSSII proteins are mainly present bound to starch granules, however, they may also be present in soluble form.

Furthermore, the invention relates to DNA molecules encoding proteins with the biological activity of a soluble starch synthase of the isotype B (SSSB) or a biologically active fragment of such a protein, with such molecules preferably encoding proteins having the amino acid sequence indicated under Seq ID No. 10. In particular, the invention relates to DNA molecules having the nucleotide sequence indicated under Seq ID No. 9, preferably molecules comprising the coding region indicated under Seq ID No. 9.

Another subject matter of the invention are DNA molecules encoding an SSSB and the sequence of which differs from the nucleotide sequences of the above-described DNA molecules due to the degeneracy of the genetic code.

Furthermore, the invention relates to DNA molecules encoding SSSB and hybridizing to any of the above-described DNA molecules. An exception are the DNA molecules from rice. The SSSB proteins encoded by the DNA molecules according to the invention preferably have a molecular weight of 78±5 kD.

The enzymatic properties of the SSSB proteins are described in the examples.

The invention furthermore relates to DNA molecules encoding proteins with the biological activity of a soluble starch synthase of the isotype A (SSSA). Such proteins can, for example, be characterized in that they are recognized by an antibody that is directed to the peptide having the amino acid sequence

NH₂ -GTGGLRDTVENC-COOH (Seq ID No. 13).

The enzymatic properties of the SSSA proteins are described in the examples.

An example of a DNA molecule encoding such a protein is a DNA molecule having the coding region depicted under Seq ID No. 11. This DNA molecule may be used to isolate from other organisms, in particular plants, DNA molecules encoding the SSSA proteins.

Thus, the present invention also relates to DNA molecules encoding proteins with the biological activity of a soluble starch synthase of the isotype A (SSSA) or a biologically active fragment of such a protein, with such molecules preferably encoding proteins having the amino acid sequence indicated under Seq ID No. 12. The invention particularly relates to DNA molecules having the nucleotide sequence indicated under Seq ID No. 11, preferably molecules comprising the coding region indicated under Seq ID No. 11.

Another subject matter of the invention are DNA molecules encoding SSSA and the sequence of which differs from the nucleotide sequences of the above-described DNA molecules due to a degeneracy of the genetic code.

Furthermore, the present invention relates to DNA molecules encoding SSSA and hybridizing to any of the above-described DNA molecules.

The SSSA protein preferably has an apparent molecular weight of about 120 to 140 kD, particularly of about 135 kD, in SDS gel electrophoresis.

DETAILED DESCRIPTION OF THE INVENTION

In this invention the term "hybridization" signifies hybridization under conventional hybridizing conditions, preferably under stringent conditions as described for example in Sambrook et al., Molecular Cloning, A Laboratory Manual, 2nd Edition (1989) Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.). DNA molecules hybridizing to the DNA molecules according to the invention can basically be derived from any organism (i.e., prokaryotes or eukaryotes, particularly from bacteria, fungi, algae, plants or animal organisms) which possesses such DNA molecules. Preferably, they originate from monocotyledonous or dicotyledonous plants, in particular from useful plants, and particularly preferred from starch-storing plants.

DNA molecules hybridizing to the molecules according to the invention may be isolated, e.g., from genomic or from cDNA libraries from various organisms.

The identification and isolation of such DNA molecules from plants or other organisms may take place by using the DNA molecules according to the invention or parts of these DNA molecules or, as the case may be, the reverse complement strands of these molecules, e.g., by hybridization according to standard methods (see, e.g., Sambrook et al., 1989, Molecular Cloning, A Laboratory Manual, 2nd Edition, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.).

As a probe for hybridization, e.g., DNA molecules may be used which exactly or basically contain the nucleotide sequences indicated under Seq ID No. 7, 9 or 11 or parts thereof. The fragments used as hybridization probe may also be synthetic DNA fragments which were produced by means of the conventional DNA synthesizing methods and the sequence of which is basically identical with that of a DNA molecule according to the invention. After identifying and isolating the genes hybridizing to the DNA sequences according to the invention, the sequence has to be determined and the properties of the proteins encoded by this sequence have to be analyzed.

The molecules hybridizing to the DNA molecules of the invention also comprise fragments, derivatives and allelic variants of the above-described DNA molecules which encode one of the proteins described above. Thereby, fragments are defined as parts of the DNA molecules, which are long enough in order to encode one of the described proteins. In this context, the term derivatives means that the DNA sequences of these molecules differ from the sequences of the above-mentioned DNA molecules at one or more positions and that they exhibit a high degree of homology to these DNA sequences. Hereby, homology means a sequence identity of at least 40%, in particular an identity of at least 60%, preferably of more than 80% and still more preferably a sequence identity of more than 90%. The deviations occurring when comparing with the above-described DNA molecules might have been caused by deletion, substitution, insertion or recombination.

Moreover, homology means that functional and/or structural equivalence exists between the respective DNA molecules or the proteins they encode. The DNA molecules, which are homologous to the above-described DNA molecules and represent derivatives of these DNA molecules, are generally variations of these molecules, that constitute modifications which exert the same biological function. These variations may be naturally occurring variations, for example sequences derived from other organisms, or mutations, whereby these mutations may have occurred naturally or they may have been introduced by means of a specific mutagenesis. Moreover, the variations may be synthetically produced sequences. The allelic variants may be naturally occurring as well as synthetically produced variants or variants produced by recombinant DNA techniques.

The proteins encoded by the various variants of the DNA molecules according to the invention exhibit certain common characteristics. Enzyme activity, molecular weight, immunologic reactivity, conformation etc. may belong to these characteristics as well as physical properties such as the mobility in gel electrophoresis, chromatographic characteristics, sedimentation coefficients, solubility, spectroscopic properties, stability; pH-optimum, temperature-optimum etc.

Significant characteristics of a starch synthase are: i) their localization within the stroma of the plastids of plant cells; ii) their capability of synthesizing linear α-1,4-linked polyglucans using ADP-glucose as substrate. This activity can be determined as shown in Denyer and Smith (Planta 186 (1992), 606-617) or as described in the examples.

The DNA molecules according to the invention may basically originate from any organism expressing the proteins described, preferably from plants, particularly from starch-synthesizing or starch-storing plants. These plants may be monocotyledonous but also dicotyledonous plants. Particularly preferred are, e.g., cereals (such as barley, rye, oats, wheat, etc.), maize, rice, pea, cassava, potato, etc.

Furthermore, the invention relates to vectors, especially plasmids, cosmids, viruses, bacteriophages and other vectors common in genetic engineering, which contain the above-mentioned DNA molecules of the invention.

In a preferred embodiment the DNA molecules contained in the vectors are linked to DNA elements that ensure the transcription and synthesis of a translatable RNA in prokaryotic and eukaryotic cells.

The expression of the DNA molecules of the invention in prokaryotic cells, e.g., in Escherichia coli, is interesting insofar as this enables a more precise characterization of the enzymatic activities of the enzymes enroding these molecules. In particular, it is possible to characterize the product being synthesized by the respective enzymes in the absence of other enzymes which are involved in the starch synthesis of the plant cell. This makes it possible to draw conclusions about the function, which the respective protein exerts during the starch synthesis within the plant cell.

Moreover, it is possible to introduce various mutations into the DNA molecules of the invention by means of conventional molecular-biological techniques (see, e.g., Sambrook et al., 1989, Molecular Cloning, A Laboratory Manual, 2nd Edition, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.), whereby the synthesis of proteins with possibly modified biological properties is induced. By means of this it is on the one hand possible to produce deletion mutants, in which DNA molecules are produced by continuing deletions at the 5'- or the 3'-end of the encoding DNA-sequence. These DNA molecules may lead to the synthesis of correspondingly shortened proteins. Such deletions at the 5'-end of the nucleotide sequence make it possible, for example, to identify amino acid sequences which are responsible for the translocation of the enzyme in the plastids (transit peptides). This allows for the specific production of enzymes which due to the removal of the respective sequences are no longer located in the plastids but within the cytosol, or which due to the addition of other signal sequences are located in other compartments.

On the other hand, point mutations might also be introduced at positions where a modification of the amino acid sequence influences, for example, the enzyme activity or the regulation of the enzyme. In this way, e.g., mutants with a modified K_(m) -value may be produced, or mutants which are no longer subject to the regulation mechanisms by allosteric regulation or covalent modification usually occurring in cells.

Furthermore, mutants may be produced exhibiting a modified substrate or product specificity such as mutants that use ADP-glucose-6-phosphate instead of ADP-glucose as substrate. Moreover, mutants with a modified activity-temperature-profile may be produced.

For the genetic manipulation in prokaryotic cells the DNA molecules of the invention or parts of these molecules may be integrated into plasmids which allow for a mutagenesis or a sequence modification by recombination of DNA sequences. By means of standard methods (cf. Sambrook et al., 1989, Molecular Cloning: A laboratory manual, 2nd edition, Cold Spring Harbor Laboratory Press, N.Y., USA) base exchanges may be carried out or natural or synthetic sequences may be added. In order to connect the DNA fragments, adapters or linkers may be attached to the fragments. Moreover, use can be made of manipulations which offer suitable restriction sites or which remove superfluous DNA or restriction sites. Wherever use is made of inserts, deletions or substitutions, in vitro mutagenesis, "primer repair", restriction or ligation may be used. For analyzing use is usually made of a sequence analysis, a restriction analysis or further biochemico-molecularbiological methods.

In a further embodiment the invention relates to host cells, in particular prokaryotic or eukaryotic cells, which contain a DNA molecule of the invention as described above or a vector of the invention. These are preferably bacterial cells or plant cells.

Furthermore, the proteins encoded by the DNA molecules of the invention are the subject-matter of the invention as well as methods for their production whereby a host cell of the invention is cultivated under conditions that allow for a synthesis of the protein and whereby the protein is then isolated from the cultivated cells and/or the culture medium.

It was found that by making available the nucleic acid molecules of the invention it is now possible--by means of recombinant DNA techniques--to interfere with the starch metabolism of plants in a way so far impossible and to modify it in such a way that a starch is synthesized which, e.g., is modified, compared to the starch synthesized in wild-type plants, with respect to its physico-chemical properties, especially the amylose/amylopectin ratio, the degree of branching, the average chain length, the phosphate content, the pastification behavior, the size and/or the shape of the starch granule. Soluble starch synthases, play, e.g., a central role in the regulation of the synthesis rate of starch. There is the possibility of increasing the yield of genetically modified plants by increasing the activity of these enzymes or by making mutants available which are no longer subject to cell-specific regulation schemes and/or different temperature-dependencies with respect to their activity. The economic significance of the chance to interfere with the starch synthesis, namely of potato plants, is obvious: In Europe, for example, potato is one of the most important plants for producing starch apart from maize and wheat. About 20% of the starch produced in Europe per year is obtained from potatoes. Furthermore, potato starch exhibits some advantageous properties as compared to starch from maize or wheat, such as, e.g., a low protein and lipid content as well as relatively large starch granules and phosphate content. Therefore, if possible, potato starch is preferably used.

Therefore, it is possible to express the DNA molecules of the invention in plant cells in order to increase the activity of one or more starch synthases. Furthermore, the DNA molecules of the invention may be modified by means of methods known to the skilled person, in order to produce starch synthases which are no longer subject to the cell-specific regulation mechanisms or show modified temperature-dependencies or substrate or product specificities.

The synthesized protein may in principle be located in any desired compartment within the plant cell. In order to locate it within a specific compartment, the sequence ensuring the localization in the plastids must be deleted and the remaining coding regions optionally have to be linked to DNA sequences which ensure localization in the respective compartment. Such sequences are known (see, e.g., Braun et al., 1992, EMBO J. 11:3219-3227; Wolter et al., 1988, Proc. Natl. Acad. Sci. USA 85: 846-850; Sonnewald et al., 1991, Plant J. 1:95-106).

Thus, the present invention also relates to transgenic plant cells containing a DNA molecule of the invention, this DNA molecule being linked to regulatory DNA elements, which ensure the transcription in plant cells, especially with a promoter which is heterologous with respect to the DNA molecule.

By means of methods known to the skilled person the transgenic plant cells can be regenerated to whole plants. Thus, the plants obtained by regenerating the transgenic plant cells of the invention are also the subject-matter of the present invention. A further subject-matter of the invention are plants which contain the above-described transgenic plant cells. The transgenic plants may in principle be plants of any desired species, i.e., they may be monocotyledonous as well as dicotyledonous plants. These are preferably useful plants, such as cereals (rye, barley, oats, wheat etc.), rice, maize, peas, cassava or potatoes.

The invention also relates to propagation material of the plants of the invention, e.g., fruits, seeds, tubers, cuttings etc.

Due to the expression or, as the case may be, additional expression of a DNA molecule of the invention, the transgenic plant cells and plants of the invention synthesize a starch which compared to starch synthesized in wild-type plants, i.e., non-transformed plants, is modified, in particular with respect to the viscosity of aqueous solutions of this starch and/or the phosphate content. Thus, the starch derived from transgenic plant cells and plants according to the invention is the subject-matter of the present invention.

A further subject-matter of the invention are transgenic plant cells, in which the activity of a protein according to the invention is reduced when compared to non-transformed plants. It was found that plant cells exhibiting a reduced activity of a protein of the invention synthesize a starch having modified chemical and/or physical properties as compared to that of wild-type plant cells.

The production of plant cells with a reduced activity of a protein of the invention may for example be achieved by using the DNA molecules of the invention. Possibilities are the expression of a corresponding antisense-RNA, of a sense-RNA for achieving a cosupression effect or the expression of a correspondingly constructed ribozyme, which specifically cleaves transcripts encoding a protein of the invention.

Preferably, an antisense RNA is expressed to reduce the activity of a protein of the invention in plant cells.

For this purpose, a DNA molecule can be used which comprises the complete sequence encoding a protein of the invention, including possibly existing flanking sequences as well as DNA molecules, which only comprise parts of the encoding sequence whereby these parts have to be long enough in order to prompt an antisense-effect within the cells. Basically, sequences with a minimum length of 15 bp, preferably with a length of 100-500 bp and for an efficient antisense-inhibition, in particular sequences with a length of more than 500 bp may be used. Generally DNA-molecules are used which are shorter than 5000 bp, preferably sequences with a length of less than 2500 bp. Preferably, use is made of DNA molecules that are homologous with respect to the plant species to be transformed.

Use may also be made of DNA sequences which are highly homologous, but not completely identical to the sequences of the DNA molecules of the invention. The minimal homology should be more than about 65%. Preferably, use should be made of sequences with homologies between 95 and 100%.

The transgenic plant cells of the invention can be regenerated to whole plants by means of methods known to the skilled person. Thus, plants containing the transgenic plant cells of the invention are also the subject-matter of the present invention. These plants generally are plants of any species, i.e., monocotyledonous and dicotyledonous plant. Preferably these plants are useful plants, especially starch-storing plants such as cereals (rye, barley, oats, wheat, etc.), rice, maize, peas, cassava or potatoes. The invention also relates to propagation material of the plants of the invention, such as fruit, seeds, tubers, cuttings, etc.

Due to the reduction of the activity of one of the proteins of the invention, the transgenic plant cells and plants of the invention synthesize a starch which is modified, compared to the starch from non-transformed plant cells or plants, in its chemical and/or physical properties. This starch exhibits for example a modified viscosity of its aqueous solutions and/or a modified phosphate content.

Thus, starch derived from the above-mentioned transgenic plant cells and plants is also the subject-matter of the invention.

The starches of the invention may be modified according to techniques known to the skilled person; in unmodified as well as in modified form they are suitable for use in foodstuffs or non-foodstuffs.

Basically, the possibilities of uses of the starch can be subdivided into two major fields. One field comprises the hydrolysis products of starch which mainly include glucose and glucan components obtained by enzymatic or chemical processes. They serve as starting materials for further chemical modifications and processes such as fermentation. In this context, it might be of importance that the hydrolysis process can be carried out simply and inexpensively. Currently, it is carried out substantially enzymatically using amyloglucosidase. It is thinkable that costs might be reduced by using lower amounts of enzymes for hydrolysis due to changes in the starch structure, e.g., increased surface of the grain, improved digestibility due to less branching or a steric structure, which limits the accessibility for the used enzymes.

The other area in which starch is used due to its polymer structure as so-called native starch, can be subdivided into two further areas:

1. Use in Foodstuffs

Starch is a classic additive for various foodstuffs, in which it essentially serves the purpose of binding aqueous additives and/or causes an increased viscosity or an increased gel formation. Important characteristic properties are flowing and sorption behavior, swelling and pastification temperature, viscosity and thickening performance, solubility of the starch, transparency and paste structure, heat, shear and acid resistance, tendency to retrogradation, capability of film formation, resistance to freezing/thawing, digestibility as well as the capability of complex formation with, e.g., inorganic or organic ions.

2. Use in Non-foodstuffs

The other major field of application is the use of starch as an adjuvant in various production processes or as an additive in technical products. The major fields of application for the use of starch as an adjuvant are, first of all, the paper and cardboard industry. In this field, the starch is mainly used for retention (holding back solids), for sizing filler and fine particles, as solidifying substance and for dehydration. In addition, the advantageous properties of starch with regard to stiffness, hardness, sound, grip, gloss, smoothness, tear strength as well as the surfaces are utilized.

2.1 Paper and Cardboard Industry

Within the paper production process, a differentiation can be made between four fields of application, namely surface, coating, mass and spraying.

The requirements on starch with regard to surface treatment are essentially a high degree of brightness, corresponding viscosity, high viscosity stability, good film formation as well as low formation of dust. When used in coating the solid content, a corresponding viscosity, a high capability to bind as well as a high pigment affinity play an important role. As an additive to the mass rapid, uniform, loss-free dispersion, high mechanical stability and complete retention in the paper pulp are of importance. When using the starch in spraying, corresponding content of solids, high viscosity as well as high capability to bind are also significant.

2.2 Adhesive Industry

A major field of application is, for instance, in the adhesive industry, where the fields of application are subdivided into four areas: the use as pure starch glue, the use in starch glues prepared with special chemicals, the use of starch as an additive to synthetic resins and polymer dispersions as well as the use of starches as extenders for synthetic adhesives. 90% of all starch-based adhesives are used in the production of corrugated board, paper sacks and bags, composite materials for paper and aluminum, boxes and wetting glue for envelopes, stamps, etc.

2.3 Textile and Textile Care Industry

Another possible use as adjuvant and additive is in the production of textiles and textile care products. Within the textile industry, a differentiation can be made between the following four fields of application: the use of starch as a sizing agent, i.e., as an adjuvant for smoothing and strengthening the burring behavior for the protection against tensile forces active in weaving as well as for the increase of wear resistance during weaving, as an agent for textile improvement mainly after quality-deteriorating pretreatments, such as bleaching, dying, etc., as a thickener in the production of dye pastes for the prevention of dye diffusion and as an additive for warping agents for sewing yarns.

2.4 Building Industry

The fourth area of application of starch is its use as an additive in building materials. One example is the production of gypsum plaster boards, in which the starch mixed in the thin plaster pastifies with the water, diffuses at the surface of the gypsum board and thus binds the cardboard to the board. Other fields of application are admixing it to plaster and mineral fibers. In ready-mixed concrete, starch may be used for the deceleration of the sizing process.

2.5 Ground Stabilization

Furthermore, the starch is advantageous for the production of means for ground stabilization used for the temporary protection of ground particles against water in artificial earth shifting. According to state-of-the-art knowledge, combination products consisting of starch and polymer emulsions can be considered to have the same erosion- and incrustation-reducing effect as the products used so far; however, they are considerably less expensive.

2.6 Use of Starch in Plant Protectives and Fertilizers

Another field of application is the use of starch in plant protectives for the modification of the specific properties of these preparations. For instance, starches are used for improving the wetting of plant protectives and fertilizers, for the dosed release of the active ingredients, for the conversion of liquid, volatile and/or odorous active ingredients into microcristalline, stable, deformable substances, for mixing incompatible compositions and for the prolongation of the duration of the effect due to a reduced disintegration.

2.7 Drugs, Medicine and Cosmetics Industry

Starch may also be used in the fields of drugs, medicine and in the cosmetics industry. In the pharmaceutical industry, the starch may be used as a binder for tablets or for the dilution of the binder in capsules. Furthermore, starch is suitable as disintegrant for tablets since, upon swallowing, it absorbs fluid and after a short time it swells so much that the active ingredient is released. For qualitative reasons, medicinal flowance and dusting powders are further fields of application. In the field of cosmetics, the starch may for example be used as a carrier of powder additives, such as scents and salicylic acid. A relatively extensive field of application for the starch is toothpaste.

2.8 Starch as an Additive in Coal and Briquettes

The use of starch as an additive in coal and briquettes is also thinkable. By adding starch, coal can be quantitatively agglomerated and/or briquetted in high quality, thus preventing premature disintegration of the briquettes. Barbecue coal contains between 4 and 6% added starch, calorated coal between 0.1 and 0.5%. Furthermore, the starch is suitable as a binding agent since adding it to coal and briquette can considerably reduce the emission of toxic substances.

2.9 Processing of Ore and Coal Slurry

Furthermore, the starch may be used as a flocculant in the processing of ore and coal slurry.

2.10 Starch as an Additive in Casting

Another field of application is the use as an additive to process materials in casting. For various casting processes cores produced from sands mixed with binding agents are needed. Nowadays, the most commonly used binding agent is bentonite mixed with modified starches, mostly swelling starches.

The purpose of adding starch is increased flow resistance as well as improved binding strength. Moreover, swelling starches may fulfill more prerequisites for the production process, such as dispersability in cold water, rehydratisability, good mixability in sand and high capability of binding water.

2.11 Use of Starch in Rubber Industry

In the rubber industry starch may be used for improving the technical and optical quality. Reasons for this are improved surface gloss, grip and appearance. For this purpose, the starch is dispersed on the sticky rubberized surfaces of rubber substances before the cold vulcanization. It may also be used for improving the printability of rubber.

2.12 Production of Leather Substitutes

Another field of application for the modified starch is the production of leather substitutes.

2.13 Starch in Synthetic Polymers

In the plastics market the following fields of application are emerging: the integration of products derived from starch into the processing process (starch is only a filler, there is no direct bond between synthetic polymer and starch) or, alternatively, the integration of products derived from starch into the production of polymers (starch and polymer form a stable bond).

The use of the starch as a pure filler cannot compete with other substances such as talcum. This situation is different when the specific starch properties become effective and the property profile of the end products is thus clearly changed. One example is the use of starch products in the processing of thermoplastic materials, such as polyethylene. Thereby, starch and the synthetic polymer are combined in a ratio of 1:1 by means of coexpression to form a `master batch`, from which various products are produced by means of common techniques using granulated polyethylene. The integration of starch in polyethylene films may cause an increased substance permeability in hollow bodies, improved water vapor permeability, improved antistatic behavior, improved anti-block behavior as well as improved printability with aqueous dyes. Present disadvantages relate to insufficient transparency, reduced tensile strength as well as reduced extensibility.

Another possibility is the use of the starch in polyurethane foams. Due to the adaptation of starch derivatives as well as due to the optimization of processing techniques, it is possible to specifically control the reaction between synthetic polymers and the starch's hydroxy groups. The results are polyurethane films having the following property profiles due to the use of starch: a reduced coefficient of thermal expansion, decreased shrinking behavior, improved pressure/tension behavior, increased water vapor permeability without a change in water acceptance, reduced flammability and cracking density, no drop off of combustible parts, no halides and reduced aging. Disadvantages that presently still exist are reduced pressure and impact strength.

Product development of film is not the only option. Also solid plastics products, such as pots, plates and bowls can be produced by means of a starch content of more than 50%. Furthermore, the starch/polymer mixtures offer the advantage that they are much easier biodegradable.

Furthermore, due to their extreme capability to bind water, starch graft polymers have gained utmost importance. These are products having a backbone of starch and a side lattice of a synthetic monomer grafted on according to the principle of radical chain mechanism. The starch graft polymers available nowadays are characterized by an improved binding and retaining capability of up to 1000 g water per g starch at a high viscosity. The fields of application of these super absorbers have extended over the last few years and they are used mainly in the hygiene field, e.g., in products such as diapers and sheets, as well as in the agricultural sector, e.g., in seed pellets.

What is decisive for the use of the new starch modified by recombinant DNA techniques are, on the one hand, structure, water content, protein content, lipid content, fiber content, ashes/phosphate content, amylose/amylopectin ratio, distribution of the relative molar mass, degree of branching, granule size and shape as well as crystallization, and on the other hand, the properties resulting in the following features: flow and sorption behavior, pastification temperature, viscosity, thickening performance, solubility, paste structure, transparency, heat, shear and acid resistance, tendency to retrogradation, capability of gel formation, resistance to freezing/thawing, capability of complex formation, iodine binding, film formation, adhesive strength, enzyme stability, digestibility and reactivity.

The production of modified starch by genetically operating with a transgenic plant may modify the properties of the starch obtained from the plant in such a way as to render further modifications by means of chemical or physical methods superfluous. On the other hand, the starches modified by means of recombinant DNA techniques might be subjected to further chemical modification, which will result in further improvement of the quality for certain of the above-described fields of application. These chemical modifications are principally known to the person skilled in the art. These are particularly modifications by means of

heat treatment

acid treatment

oxidation and

esterification

leading to the formation of phosphate, nitrate, sulfate, xanthate, acetate and citrate starches. Other organic acids may also be used for the esterification:

formation of starch ethers

starch alkyl ether, O-allyl ether, hydroxylalkyl ether, O-carboxylmethyl ether, N-containing starch ethers, P-containing starch ethers and S-containing starch ethers.

formation of branched starches

formation of starch graft polymers.

In order to express the DNA molecules of the invention in sense- or antisense-orientation in plant cells, these are linked to regulatory DNA elements which ensure the transcription in plant cells. Such regulatory DNA elements are particularly promoters.

The promoter may be selected in such a way that the expression takes place constitutively or in a certain tissue, at a certain point of time of the plant development or at a point of time determined by external circumstances. With respect to the plant the promoter may be homologous or heterologous. A suitable promoter for a constitutive expression is, e.g., the 35S RNA promoter of the Cauliflower Mosaic Virus. For a tuber-specific expression in potatoes the patatin gene promoter B33 (Rocha-Sosa et al., EMBO J. 8 (1989), 23-29) or a promoter which ensures expression only in photosynthetically active tissues, e.g., the ST-LS1 promoter (Stockhaus et al., Proc. Natl. Acad. Sci. USA 84 (1987), 7943-7947; Stockhaus et al., EMBO J. 8 (1989), 2445-2451) may be used. For an endosperm-specific expression the HMG promoter from wheat, or promoters from zein genes from maize are suitable.

Furthermore, a termination sequence may exist which serves to correctly end the transcription and to add a poly-A-tail to the transcript which is believed to stabilize the transcripts. Such elements are described in the literature (cf. Gielen et al., EMBO J. 8 (1989), 23-29) and can be exchanged as desired.

According to the invention, it is basically possible to produce plants in which only the activity of one isotype of the SSS or the GBSS II is modified, and also plants in which the activities of several starch synthase forms are simultaneously modified. Thereby, all kinds of combinations and permutations are thinkable.

By modifying the activities of one or more isotypes of the starch synthases in plants, a synthesis of a starch modified in its structure is brought about.

By increasing the activity of one or more isotypes of the starch synthases in the cells of the starch-storing tissue of transformed plants such as in the potato tuber or in the endosperm of maize or wheat, increased yields may be the result.

Since the DNA sequence encoding the GBSS I from potato is already known (Visser et al., Plant Sci. 64 (1989), 185-192), DNA sequences encoding all starch synthases so far identified in potato are available. This allows for the identification of the function of the individual isotypes in the starch biosynthesis as well as for the production of genetically modified plants in which the activity of at least one of these enzymes is modified. This enables the synthesis of starch with a modified structure and therefore with modified physico-chemical properties in the plants manipulated in such a way.

The DNA molecules of the invention may be used in order to produce plants in which the activity of the starch synthases mentioned is elevated or reduced and in which at the same time the activities of other enzymes involved in the starch biosynthesis are modified. Thereby, all kinds of combinations and permutations are thinkable. For example, DNA molecules encoding the SSS proteins or GBSS II may be introduced into plant cells according to the process described above in which the synthesis of endogenous GBSS I-proteins is already inhibited due to an antisense-effect (as described in Visser et al., Mol. Gen. Genet. 225 (1991), 289-296), or in which the synthesis of the branching enzyme is inhibited (as described in WO92/14827).

If the inhibition of the synthesis of several starch synthases in transformed plants is to be achieved, DNA molecules can be used for transformation, which at the same time contain several regions in antisense-orientation controlled by a suitable promoter and encoding the corresponding starch synthases. Hereby, each sequence may be controlled by its own promoter or else the sequences may be transcribed as a fusion of a common promoter. The last alternative will generally be preferred as in this case the synthesis of the respective proteins should be inhibited to approximately the same extent.

Furthermore, it is possible to construct DNA molecules in which apart from DNA sequences encoding starch synthases other DNA sequences are present encoding other proteins involved in the starch synthesis or modification and coupled to a suitable promoter in antisense orientation. Hereby, the sequences may again be connected up in series and be transcribed by a common promoter. For the length of the individual coding regions used in such a construct the above-mentioned facts concerning the production of antisense-construct are also true. There is no upper limit for the number of antisense fragments transcribed from a promoter in such a DNA molecule. The resulting transcript, however, should not be longer than 10 kb, preferably 5 kb.

Coding regions which are located in antisense-orientation behind a suitable promoter in such DNA molecules in combination with other coding regions, may be derived from DNA sequences encoding the following proteins: granule-bound starch synthases (GBSS I and II), other soluble starch synthases (SSS I and II), branching enzymes (Koβmann et al., Mol. Gen. Genet. 230 (1991) 39-44), debranching enzymes (R enzymes), disproportionizing enzymes (Takaha et al., J. Biol. Chem. 268 (1993), 1391-1396) and starch phosphorylases. This enumeration merely serves as an example. The use of other DNA sequences within the framework of such a combination is also thinkable.

By means of such constructs it is possible to inhibit the synthesis of several enzymes at the same time within the plant cells transformed with these molecules.

In order to prepare the integration of foreign genes into higher plants a high number of cloning vectors are at disposal, containing a replication signal for E. coli and a marker gene for the selection of transformed bacterial cells. Examples for such vectors are pBR322, pUC series, M13mp series, pACYC184 etc. The desired sequence may be integrated into the vector at a suitable restriction site. The obtained plasmid is used for the transformation of E. coli cells. Transformed E. coli cells are cultivated in a suitable medium and subsequently harvested and lysed. The plasmid is recovered. As an analyzing method for the characterization of the obtained plasmid DNA use is generally made of restriction analysis, gel electrophoresis and other biochemico-molecularbiological methods. After each manipulation the plasmid DNA may be cleaved and the obtained DNA fragments may be linked to other DNA sequences. Each plasmid DNA may be cloned into the same or in other plasmids.

In order to integrate DNA into plant host cells a wide range of techniques are at disposal. These techniques comprise the transformation of plant cells with T-DNA by using Agrobacterium tumefaciens or Agrobacterium rhizogenes as transformation medium, the fusion of protoplasts, the injection and the electroporation of DNA, the integration of DNA by means of the biolistic method as well as further possibilities.

In the case of injection and electroporation of DNA into plant cells, there are no special demands made to the plasmids used. Simple plasmids such as pUC derivatives may be used. However, in case that whole plants are to be regenerated from cells transformed in such a way, a selectable marker gene should be present.

Depending on the method of integrating desired genes into the plant cell, further DNA sequences may be necessary. If the Ti- or Ri-plasmid is used, e.g., for the transformation of the plant cell, at least the right border, more frequently, however, the right and left border of the Ti- and Ri-plasmid T-DNA has to be connected to the foreign gene to be integrated as a flanking region.

If Agrobacteria are used for the transformation, the DNA which is to be integrated must be cloned into special plasmids, namely either into an intermediate vector or into a binary vector. Due to sequences homologous to the sequences within the T-DNA, the intermediate vectors may be integrated into the Ti- or Ri-plasmid of the Agrobacterium due to homologous recombination. This also contains the vir-region necessary for the transfer of the T-DNA. Intermediate vectors cannot replicate in Agrobacteria. By means of a helper plasmid the intermediate vector may be transferred to Agrobacterium tumefaciens (conjugation). Binary vectors may replicate in E. coli as well as in Agrobacteria. They contain a selectable marker gene as well as a linker or polylinker which is framed by the right and the left T-DNA border region. They may be transformed directly into the Agrobacteria (Holsters et al. Mol. Gen. Genet. 163 (1978), 181-187). The Agrobacterium acting as host cell should contain a plasmid carrying a vir-region. The vir-region is necessary for the transfer of the T-DNA into the plant cell. Additional T-DNA may be present. The Agrobacterium transformed in such a way is used for the transformation of plant cells.

The use of T-DNA for the transformation of plant cells was investigated intensely and described sufficiently in EP 120 516; Hoekema, In: The Binary Plant Vector System Offsetdrukkerij Kanters B. V., Alblasserdam (1985), Chapter V; Fraley et al., Crit. Rev. Plant. Sci., 4, 1-46 and An et al. EMBO J. 4 (1985), 277-287.

For transferring the DNA into the plant cells, plant explants may suitably be co-cultivated with Agrobacterium tumefaciens or Agrobacterium rhizogenes. From the infected plant material (e.g. pieces of leaves, stem segments, roots, but also protoplasts or suspension-cultivated plant cells) whole plants may then be regenerated in a suitable medium which may contain antibiotics or biozides for the selection of transformed cells. The plants obtained in such a way may then be examined as to whether the integrated DNA is present or not. Other possibilities in order to integrate foreign DNA by using the biolistic method or by transforming protoplasts are known to the skilled person (cf., e.g., Willmitzer, L., 1993 Transgenic plants. In: Biotechnology, A Multi-Volume Comprehensive Treatise (H. J. Rehm, G. Reed, A. Puhler, P. Stadler, editors), Vol. 2, 627-659, VCH Weinheim-New York-Basel-Cambridge).

Once the introduced DNA has been integrated in the genome of the plant cell, it usually continues to be stable there and also remains within the descendants of the originally transformed cell. It usually contains a selectable marker which confers resistance against a biozide or against an antibiotic such as kanamycin, G 418, bleomycin, hygromycin or phosphinotricine, etc. to the transformed plant cells. The individually selected marker should therefore allow for a selection of transformed cells to cells lacking the integrated DNA.

The transformed cells grow in the usual way within the plants (see also McCormick et al., 1986, Plant Cell Reports 5: 81-84).

The resulting plants can be cultivated in the usual way and cross-bred with plants having the same transformed genetic heritage or another genetic heritage. The resulting hybrid individuals have the corresponding phenotypic properties.

Two or more generations should be grown in order to ensure whether the phenotypic feature is kept stably and whether it is transferred. Furthermore, seeds should be harvested in order to ensure that the corresponding phenotype or other properties will remain.

The plasmid pBinARHyg used in this invention was deposited with Deutsche Sammlung von Mikroorganismen (DSM) [German collection of microorganisms] in Brunswick, Federal Republic of Germany, as international recognized depositary authority in accordance with the stipulations of the Budapest Treaty on the International Recognition of the Deposit of Microorganisms for the Purposes of Patent Procedure on Jan. 20, 1994 under deposit no. DSM 9505.

Abbreviations used

    ______________________________________                                         bp           base pair                                                                       GBSS granule-bound starch synthase                                 IPTG isopropyl β-D-thiogalacto-pyranoside                                 SSS soluble starch synthase                                                    PMSF phenylmethylsulfonylfluoride                                              VK full-length clone                                                         ______________________________________                                    

Media and solutions used in the examples:

    ______________________________________                                         20 x SSC      175.3 g NaCl                                                        88.2 g sodium citrate                                                          ad 1000 ml with ddH.sub.2 O                                                    pH 7.0 with 10 N NaOH                                                         Buffer A 50 mM Tris-HCl pH 8.0                                                  2.5 mM DTT                                                                     2 mM EDTA                                                                      0.4 mM PMSF                                                                    10% glycerol                                                                   0.1% sodium dithionite                                                        Buffer B 50 mM Tris-HCl pH 7.6                                                  2.5 mM DTT                                                                     2 mM EDTA                                                                     Buffer C 0.5 M sodium citrate pH 7.6                                            50 mM Tris-HCl pH 7.6                                                          2.5 mM DTT                                                                     2 mM EDTA                                                                     10 x TBS 0.2 M Tris-HCl pH 7.5                                                  5.0 M NaCl                                                                    10 x TBST 10 x TBS                                                              0.1% (vol./vol.) Tween 20                                                     Elution buffer 25 mM Tris pH 8.3                                                250 mM glycine                                                                Dialysis buffer 50 mM Tris-HCl pH 7.0                                           50 mM NaCl                                                                     2 mM EDTA                                                                      14.7 mM β-mercaptoethanol                                                 0.5 mM PMSF                                                                   Protein buffer 50 mM sodium phosphate buffer pH 7.2                             10 mM EDTA                                                                     0.5 mM PMSF                                                                    14.7 mM β-mercaptoethanol                                              ______________________________________                                    

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows plasmid pSSSA

The thin line corresponds to the sequence of pBluescript II SK(-). The thick line represents the cDNA encoding the SSS A isotype from Solanum tuberosum. The restriction sites of the insert are indicated. The cDNA insert is ligated between the EcoR I and Xho I restriction sites of the polylinker of the plasmid. The DNA sequence of the cDNA insert is indicated under Seq ID No. 1.

FIG. 2 shows plasmid pSSSB

The thin line corresponds to the sequence of pBluescript II SK(-). The thick line represents the cDNA encoding the SSS B isotype from Solanum tuberosum. The restriction sites of the insert are indicated. The cDNA insert is ligated between the EcoR I and Xho I restriction sites of the polylinker of the plasmid. The DNA sequence of the cDNA insert is indicated under SeQ ID NO. 3.

FIG. 3 shows plasmid p35S-anti-SSSA

Structure of the plasmid:

A=fragment A: CaMV 35S promoter, nt 6909-7437 (Franck et al., Cell 21 (1980), 285-294)

B=fragment B: cDNA from Solanum tuberosum encoding soluble starch synthase; SSSA isotype; Xba I/Asp718 fragment from pSSSA, about 2.1 kb orientation with respect to the promoter: antisense

C=fragment C: nt 11748-11939 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846)

FIG. 4 shows plasmid p35S-anti-SSSB

Structure of the plasmid:

A=fragment A: CaMV 35S promoter, nt 6909-7437 (Franck et al., Cell 21 (1980), 285-294)

B=fragment B: cDNA from Solanum tuberosum encoding soluble starch synthase; SSSB isotype; Xho I/Spe I fragment from pSSSB, about 1.8 kb orientation with respect to the promoter: antisense

C=fragment C: nt 11748-11939 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846)

FIG. 5 shows plasmid pGBSSII

The thin line corresponds to the sequence of pBluescript II SK(-). The thick line represents the cDNA encoding the GBSS II isotype from Solanum tuberosum. The restriction sites of the insert are indicated. The cDNA insert is ligated between the EcoR I and Xho I restriction sites of the polylinker of the plasmid. The DNA sequence of the cDNA insert is indicated under SEQ ID NO: 5.

FIG. 6 shows plasmid p35S-anti-GBSSII

Structure of the plasmid:

A=fragment A: CaMV 35S promoter, nt 6909-7437 (Franck et al., Cell 21 (1980), 285-294)

B=fragment B: cDNA from Solanum tuberosum encoding granule-bound starch synthase; GBSS II isotype; Sma I/Asp 718 fragment from pGBSS II, about 1.9 kb orientation with respect to the promoter: antisense

C=fragment C: nt 11748-11939 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846)

FIG. 7 shows a partial comparison of the amino acid sequences of prokaryotic glycogen syntheses, granule-bound starch synthases and soluble starch syntheses from various organisms.

a: glycogen synthase from E. coli

b: GBSS I from barley

c: GBSS I from wheat

d: GBSS I from maize

e: GBSS I from rice

f: GBSS I from cassava

g: GBSS I from potato

h: GBSS II from pea

i: GBSS II from potato

k: SSS from rice

l: SSS A from potato

m: SSS B from potato

The marked regions (I), (II) and (III) indicate three peptide sequences which are strongly conserved between the various starch synthases and glycogen synthases.

FIGS. 8A-8C show activity gels of the soluble starch synthase isotypes from tuber extracts from wild-type and starch synthase "antisense" potato plants.

A) GBSS II "antisense" plant, lines 14 and 35, K=wild-type plant

B) SSS A "antisense" plant, lines 25 and 39, K=wild-type plant

C) SSS B "antisense" plant, lines 1 and 4, K=wild-type plant

50 μg each of the protein extracts were separated on a 7.5% native gel and the activities of the synthase isotypes were determined in the citrate-stimulated mixture with 0.1% amylopectin as primer. The synthesized glucans were dyed with Lugol's solution.

The examples serve to illustrate the invention.

In the examples, the following methods were used:

1. Cloning Methods

Vector pBluescript II SK (stratagene) was used for clonina in E. coli.

For plant transformation, the gene constructs were cloned into the binary vector pBinAR Hyg (DSM 9505).

2. Bacterial Strains

For the Bluescript vector and for the pBinAR Hyg constructs the E. coli strain DH5α (Bethesda Research Laboratories, Gaithersburg, USA) was used. For the in vivo excision the E. coli strain XL1-Blue was used.

The transformation of the plasmids in the potato plants was carried out using the Agrobacterium tumefaciens strain C58C1 pGV2260 (Deblaere et al., Nucl. Acids Res. 13 (1985), 4777-4788).

3. Transformation of Agrobacterium tumefaciens

The transfer of the DNA was carried out by direct transformation according to the method by Hofgen & Willmitzer (Nucl. Acids Res. 16 (1988), 9877). The plasmid DNA of transformed Agrobacteria was isolated according to the method by Birnboim & Doly (Nucl. Acids Res. 7 (1979), 1513-1523) and was analyzed gel electrophoretically after suitable restriction digestion.

4. Transformation of Potatoes

Ten small leaves of a potato sterile culture (Solanum tuberosum L.cv. Desiree) were wounded with a scalpel and placed in 10 ml MS medium (Murashige & Skoog, Physiol. Plant. 15 (1962), 473) containing 2% sucrose which contained 50 μl of a selectively grown overnight culture of Agrobacterium tumefaciens. After gently shaking the mixture for 3-5 minutes it was further incubated in the dark for 2 days. For callus induction the leaves were placed on MS medium containing 1.6% glucose, 5 mg/l naphthyl acetic acid, 0.2 mg/l benzyl aminopurine, 250 mg/l claforan, 50 mg/l kanamycin, and 0.80% Bacto Agar. After incubation at 25° C. and 3,000 lux for one week the leaves were placed for shoot induction on MS medium containing 1.6% glucose, 1.4 mg/l zeatin ribose, 20 mg/l naphthyl acetic acid, 20 mg/l giberellic acid, 250 mg/l claforan, 50 mg/l kanamycin and 0.80% Bacto Agar.

5. Radioactive Labeling of DNA Fragments

The DNA fragments were radioactively labeled using a DNA Random Primer Labelling Kit of Boehringer (Germany) according to the manufacturer's information.

6. Determination of the Starch Synthase Activity

The starch synthase activity was determined via the determination of the incorporation of ¹⁴ C glucose from ADP [¹⁴ C glucose] into a product insoluble in methanol/KCl as described by Denyer and Smith (Planta 186 (1992), 609-617).

7. Detection of Soluble Starch Synthases in the Native Gel

In order to detect the activity of soluble starch synthases by non-denaturing gel electrophoresis tissue samples of potato tubers were extracted with 50 mM Tris-HCl pH 7.6, 2 mM DTT, 2.5 mM EDTA, 10% glycerol and 0.4 mM PMSF. Electrophoresis was carried out in a MiniProtean II chamber (BioRAD). The monomer concentration of the gels having 1.5 mm thickness was 7.5% (wt./vol.). 25 mM Tris-glycine pH 8.4 served as gel and running buffer. Equal amounts of protein extract were applied and separated for 2 hrs at 10 mA per gel.

The activity gels were subsequently incubated in 50 mM tricine NaOH pH 8.5, 25 mM potassium acetate, 2 mM EDTA, 2 mM DTT, 1 mM ADP glucose, 0.1% (wt./vol.) amylopectin and 0.5 M sodium citrate. The glucans formed were dyed with Lugol's solution.

8. Starch Analysis

The starch produced by the transgenic potato plants was characterized using the following methods:

a) Determination of the Phosphate Content

In potato starch some glucose units may be phosphorylated at the carbon atoms at positions C3 and C6. In order to determine the phosphorylation degree at the C6 position of the glucose 100 mg starch were hydrolyzed in 1 ml 0.7 M HCl at 95° C. for 4 hours (Nielsen et al., Plant Physiol. 105 (1994), 111-117). After neutralization with 0.7 M KOH, 50 μl of the hydrolysate were subjected to a photometric-enzymatic test to determine the glucose-6-phosphate content. The alteration of the absorption of the test mixture (100 mM imidazole/HCl; 10 mM MgCl₂ ; 0.4 mM NAD; 2 units glucose-6-phosphate dehydrogenase from Leuconostoc mesenteroides; 30° C.) was measured at 334 nm.

b) Analysis of the Side Chain Length Distribution

For an analysis of the side chains of the starch molecules 1 ml of a 0.1% starch solution was digested with about 1 unit isoamylase overnight at 37° C in 100 mM sodium citrate buffer, pH 4.0 (Y. C. Lee, Analytical Biochemistry 189 (1990), 151-162). The individual glucan chains were separated via a complex gradient on HPLC (column PA1; elution with 150 mM NaOH with sodium acetate gradients).

c) Determination of Granule Size

The granule size was determined with a photosedimentometer of the "Lumosed" type by Retsch GmbH, Germany. For this purpose, 0.2 g starch were suspended in about 150 ml water and measured immediately. The program supplied by the manufacturer together with the photosedimentometer calculated the average diameter of the starch granules based on an average density of the starch of 1.5 g/l.

d) Pastification Properties

The pastification curves of the starch were recorded with a Viskograph E of Brabender oHG, Germany, or with a Rapid Visco Analyser, Newport Scientific Pty Ltd, Investment Support Group, Warriewood NSW 2102, Australia. When the Viskograph E was used, a suspension of 30 g starch in 450 ml water was subjected to the following heating regimen: heating up from 50° C. to 96° C. at 3°/min, maintaining constant for 30 minutes, cooling off to 30° C. at 3°/min and maintaining constant for another 30 minutes. The temperature profile yielded characteristic pastification properties.

When the Rapid Visco Analyser was used, a suspension of 2 g starch in 25 ml water was subjected to the following heating regimen: suspending at 50° C. for 50 s, heating up from 50° C. to 95° C. at 12°/min, maintaining constant for 2.5 minutes, cooling off to 50° C. at 16.4°/min and maintaining constant for another 2 minutes. The temperature profile yielded the maximum and the final viscosity as well as the pastification temperature.

EXAMPLE 1 Identification, Isolation and Characterization of Two cDNAs Encoding the Isotypes SSS B and GBSS II of the Starch Synthase from Solanum tuberosum

Although SSS proteins have already been detected in a variety of plant species, inter alia in potato, and cDNA sequences have been described for SSS proteins from rice (Baba et al., supra), the purification of these proteins from potato or other plants as well as the identification of such DNA sequences has not been successful. The problem in isolating such DNA sequences resides in that the homogeneous purification of soluble starch synthases so far has not been successful due to technical reasons, although it has been attempted many times. The soluble synthases co-purify in all purification steps with the branching enzyme and other impurities. Therefore, these proteins have not been amenable to the detection of partial amino acid sequences. It is hence extremely difficult to identify cDNA sequences by hybridization to degenerate oligonucleotides derived from the amino acid sequence. For the same reasons, it is not possible to develop antibodies which specifically recognize these enzymes and thus could be used to screen expression libraries.

The prerequisite for the isolation of DNA sequences encoding SSS proteins from potato by hybridization to heterologous probes encoding the soluble starch synthases from other plant species is that there is sufficiently high homology and at the same time no significant homologies to other encoding DNA sequences. In the case of the only heterologous DNA sequence from rice available (Baba et al., supra), however, it was known that it has high homologies to the granule-bound starch synthases from rice as well as to GBSS I and therefore presumably also to GBSS II from potato. Due to these high homologies to GBSS I and II cross-hybridizations occur to GBSS I and II cDNAs when screening cDNA libraries. The identification of cDNAs which encode SSS proteins can therefore only be achieved by differential screening. This, however, requires the availability of cDNA sequences for GBSS I and II proteins from potato. cDNA sequences encoding GBSS II from potato, however, have not been available so far.

In the following, the isolation of a cDNA encoding a soluble starch synthase from potato is described.

For this purpose, a DNA fragment from a cDNA from rice encoding a soluble starch synthase (Baba et al., 1993, Plant Physiol. 103:565-573) was amplified using the polymerase chain reaction. The following oligonucleotides were used as primers:

Oligonucleotide 1: 5'-ACAGGATCCTGTGCTATGCGGCGTGTGAAG-3' (Seq ID No. 14)

Oligonucleotide 2: 5'-TTGGGATCCGCAATGCCCACAGCATTTTTTTC-3' (Seq ID No. 15).

The fragment resulting from PCR was 1067 bp long. This DNA fragment was later on used as heterologous probe for the identification of cDNA sequences from potato encoding soluble starch synthases.

For the preparation of a cDNA library, poly(A⁺) mRNA was isolated from potato tubers of the potato variety "Berolina". Starting from the poly(A⁺) mRNA cDNA was prepared according to the method of Gubler and Hoffmann (1983, Gene 25:263-269) using an Xho I oligo d(t)₁₈ primer. This cDNA was first provided with an EcoR I linker and then digested with Xho I and ligated in a specific orientation into a lambda ZAP II vector (Stratagene) which had been digested with EcoR I and Xho I.

500,000 plaques of a thus constructed cDNA library were screened for DNA sequences which are homologous to the heterologous probe of rice using said probe. Since the probe from rice used strongly cross-hybridizes to various sequences from potato, a direct identification of cDNA molecules encoding soluble starch synthases was not possible. From homology comparisons it was known that the cDNA encoding the SSS protein from rice has a high homology to the GBSS I cDNA already isolated from potato. Since GBSS I and GBSS II exhibit high homologies in other organisms, it could be presumed that the probe from rice would also exhibit a high homology to GBSS II sequences from potato. In order to make an identification of cDNA sequences possible which encode a soluble starch synthase from potato, it was therefore necessary to have sequences available encoding GBSS I and II from potato. DNA sequences encoding GBSS I from potato had already been described, however, none encoding GBSS II from potato. Therefore, a cDNA was isolated encoding the GBSS II from potato.

For this purpose, granule-bound proteins from potato starch were isolated. The isolation was carried out by electroelution in an elution device which was constructed in analogy to the "Model 422 Electro-Eluter" (BIORAD Laboratories Inc., USA) but had a substantially greater volume (about 200 ml). 25 g dried starch were dissolved in elution buffer (final volume 80 ml). The suspension was heated in a water bath to 70-80° C. 72.07 g urea were added (final concentration 8 M) and the volume was filled up with elution buffer to give 180 ml. The starch was dissolved under constant stirring and developed a glue-like consistency. The proteins were electroeluted overnight from the solution using the elution device (100 V; 50-60 mA). The proteins eluted were carefully removed from the device. Suspended matter was removed by short centrifugation. The supernatant was dialyzed 2-3 times for one hour each at 4° C. against dialysis buffer. Then, the volume of the protein solution was determined. The proteins were precipitated by adding ammonium sulfate (90% final concentration) while constantly stirring the solution at 0° C. The proteins precipitated were sedimented by centrifugation and dissolved in protein buffer.

The proteins isolated were used to prepare polyclonal antibodies from rabbits which specifically detect granule-bound proteins. With the help of such antibodies a cDNA expression library was then screened by standard methods for sequences encoding the granule-bound proteins. The expression library was prepared as described above.

Positive phage clones were purified further using standard techniques. By way of the in vivo excision method E. coli clones were obtained from positive phage clones which contain a double-stranded pBluescript plasmid exhibiting the respective cDNA insert. After ascertaining the size and the restriction pattern of the inserts suitable clones were analyzed further. A clone cGBSSII was identified as a clone encoding the GBSSII protein.

From this clone, plasmid pGBSSII (FIG. 5) was isolated and its cDNA insert was determined by standard techniques by the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 84 (1977), 5463-5467). The insert is 1925 bp long and is merely a partial cDNA sequence. The nucleotide sequence is indicated under Seq ID No. 5. Sequence comparisons showed that this DNA sequence, too, in various sites exhibited high homologies to the cDNA from rice encoding soluble starch synthase. Therefore, these sequences hybridize to the probe from rice when the cDNA library is screened.

The insert of this plasmid was later on used as probe in the screening of a cDNA library from potato to identify sequences encoding GBSS II proteins.

When screening the expression library with the polyclonal antibodies which are directed to the granule-bound proteins clones were isolated besides the clone cGBSSII that exhibited the cDNA inserts encoding GBSS I from potato. From one of these clones, cGBSSI, plasmid pGBSSI was isolated and the sequence of the cDNA insert was determined. This sequence substantially corresponded to the known DNA sequences encoding GBSSI from potato (Visser et al., Plant Sci. 64 (1989), 185-192; van der Leij et al., Mol. Gen. Genet. 228 (1990), 240-248). This cDNA insert, obtained in plasmid PGBSS I, was therefore later on used as probe when screening a cDNA library from potato tubers in order to identify sequences encoding the GBSS I proteins.

The above-described cDNA library from potato was first screened for sequences encoding GBSS I or GBSS II from potato. For this purpose, the phage plaques were transferred to nitrocellulose filters, the DNA was denatured by NaOH treatment, the filters were neutralized and the DNA was fixated on the filters by heat treatment. The filters were prehybridized for 2 hours at 42° C. in 0.25 M NaHPO₄, pH 7.2, 0.25 M NaCl, 7% SDS, 1 mM EDTA, 25% formamide, 10% PEG. Then the filters were hybridized overnight at 42° C. in 0.25 M NaHPO₄, pH 7.2, 0.25 M NaCl, 7% SDS, 1 mM EDTA, 25% formamide, 10% PEG after the respective radioactively labeled probe had been added. As probe on the one hand the cDNA insert from plasmid pGBSSII was used and one the other hand the cDNA insert from plasmid pGBSSI.

The filters were subsequently washed 2×30 min in 0.1×SSC, 0.5% SDS at 65° C. and exposed on X-ray films.

In a parallel procedure, filters of the same cDNA library were hybridized under the same conditions as described for GBSS I and GBSS II with the radioactively labeled cDNA probe derived from rice. The washing of the filters was carried out in this case for 2×30 min at 40° C. with 2×SSC, 0.5% SDS. Phage clones that did not hybridize to GBSS I or GBSS II from potato but to the rice cDNA were purified further using standard techniques. By way of the in vivo excision method E. coli clones were obtained from positive phage clones, which contain a double-stranded pBluescript plasmid exhibiting the respective cDNA insert. After ascertaining the size and the restriction pattern of the inserts suitable clones were subjected to a sequence analysis.

EXAMPLE 2 Sequence Analysis of the cDNA Insert of Plasmid pSSSB

Plasmid pSSSB (FIG. 2) was isolated from an E. coli clone obtained according to Example 1 and its cDNA insert was determined by standard techniques using the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 74 (1977), 5463-5467). The insert is 1758 bp long and represents a partial cDNA. The nucleotide sequence is indicated under Seq ID No. 3. The corresponding amino acid sequence is depicted under Seq ID No. 4.

EXAMPLE 3 Isolation of the Full-length cDNA Encoding the GBSS II Isotype of the Granule-bound Starch Synthase from Solanum tuberosum

A leaf-specific cDNA expression library from Solanum tuberosum L. cv. Desiree (Koβmann et al., Planta 186 (1992), 7-12) was screened for full-length clones by standard techniques using hybridization to a 5' fragment of the cDNA insert of plasmid pGBSS II (1.9 kb). As a result, plasmid pGBSS II-VK could be isolated that contains a cDNA insert having a length of about 2.8 kb.

EXAMPLE 4 Sequence Analysis of the cDNA Insert of Plasmid pGBSS II-VK

Plasmid pGBSS II-VK was isolated from the E. coli clone obtained according to Example 3 and its cDNA insert was determined by standard techniques using the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 74 (1977), 5463-5467). The insert is about 2.8 kb long. The nucleotide sequence is indicated under Seq ID No. 7 and comprises besides flanking regions the entire coding region for the GBSSII protein from potato. The molecular weight derived from the amino acid sequence of the protein is about 85.1 kD.

EXAMPLE 5 Isolation of the Full-length cDNA Encoding the SSS B Isotype of the Soluble Starch Synthase from Solanum tuberosum

A leaf-specific cDNA expression library from Solanum tuberosum L. cv. Desiree (Koβmann et al., Planta 186 (1992), 7-12) was screened for full-length clones by standard techniques using hybridization to a 5' fragment of the cDNA insert of plasmid pSSS B (1.6 kb). As a result, plasmid pSSS B-VK could be isolated that contains a cDNA insert having a length of about 2.3 kb.

EXAMPLE 6 Sequence Analysis of the cDNA Insert of Plasmid pSSS B-VK

Plasmid pSSS B-VK was isolated from the E. coli clone obtained according to Example 5 and its cDNA insert was determined by standard techniques using the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 74 (1977), 5463-5467). The insert is about 2.3 kb long. The nucleotide sequence is indicated under Seq ID No. 9 and comprises besides flanking regions the entire coding region for the B isotype of the soluble starch synthase from potato. The molecular weight derived from the amino acid sequence of the protein is about 78.6 kD.

EXAMPLE 7 Identification, Isolation and Characterization of a cDNA Encoding the SSS A Isotype of the Soluble Starch Synthase from Solanum tuberosum

A sequence comparison between the sequences encoding soluble and granule-bound starch synthase from plants known so far (FIG. 7) showed that there are three strongly conserved regions between the various proteins (regions (I), (II) and (III) in FIG. 7).

In order for a soluble starch synthase from potato to be isolated, these three regions were selected to generate polyclonal peptide antibodies. For this purpose, three synthetic polypeptides having the following amino acid sequences were prepared:

Peptide 1: NH₂ -PWSKTGGLGDVC-COOH (Seq ID No. 16)

Peptide 2: NH₂ -PSRFEPCGLNQLY-COOH (Seq ID No. 17)

Peptide 3: NH₂ -GTGGLRDTVENC-COOH (Seq ID No. 13)

These peptides were coupled to the KLH carrier (keyhole limpet homocyanin) and then used to prepare polyclonal antibodies in rabbits (Eurogentec, Seraing, Belgium).

The resulting antibodies were designated as follows:

anti-SS1 polyclonal antibody against peptide 1

anti-SS2 polyclonal antibody against peptide 2

anti-SS3 polyclonal antibody against peptide 3.

The antibodies were examined for their specificity with partially purified soluble starch synthase from potato.

The purification of the soluble starch synthases was carried out as follows:

2.5 kg potatoes were processed in 2 l buffer A. After removal of the starch by centrifugation at 1000 g for 5 min the protein extract was bound to DEAE-FastFlow column material (Pharmacia LKB)(equilibrated with buffer B). After washing the column with a five-fold column volume of buffer B, bound proteins were eluted with 300 mM NaCl in buffer B. The eluted proteins were collected fractionwise and fractions having a high starch synthase activity were pooled. The pooled fractions were desalted by chromatography on a gel filtration column (G25) which was equilibrated with buffer B. 1 volume sodium citrate, 50 mM Tris-HCl pH 7.6, 2.5 mM DTT, 2 mM EDTA were added to the eluate. The protein solution was applied to an amylose resin column (AR column) equilibrated with buffer C. The column was washed with the 20-fold column volume of buffer C. Bound proteins were then eluted with buffer B.

The fractions exhibiting high starch synthase activity were pooled and desalted by gel filtration on a G25 column.

The fractions having high starch synthase activity were applied to a MonoQ column equilibrated with buffer B. The column was washed with a five-fold column volume of buffer B. Bound proteins were eluted using a linear NaCl gradient of 0-300 mM and pooled fractionwise.

The analysis of the fractions for their starch synthase activity and for their molecular weight was carried out using various methods:

a) analysis of the fractions on a native polyacrylamide gel

b) analysis of the fractions on a denaturing SDS polyacrylamide gel and subsequent silver staining

c) determination of the synthase activity by incorporation of radioactively labeled ADP glucose (Amersham, UK) in newly synthesized starch

d) analysis of the fractions in a Western blot.

For a Western blot analysis, 50 μg, 5 μg and 0.5 μg protein of a protein crude extract were electrophoretically separated on an SDS polyacrylamide gel along with 15 μg protein of the fractions eluted from the DEAE FastFlow column, 10 μg protein of the factions eluted from the AR column and 3 μg protein of the fractions eluted from the MonoQ column. The proteins were transferred onto a nitrocellulose membrane using the semidry electroblot method.

Proteins that were recognized by the antibodies anti-SS1, anti-SS2 or anti-SS3 were identified using the "Blotting detection kit for rabbit antibodies RPN 23" (Amersham, UK) according to the manufacturer's instructions.

Three parallel Western blot analyses were performed with the above-described polyclonal antibodies anti-SS1, anti-SS2 and anti-SS3. It was found that the antibody anti-SS1 specifically recognized GBSS I and GBSS II and that the antibody anti-SS2 exhibited no specificity. Only antibody anti-SS3 specifically recognized in the Western blot new proteins, particularly proteins with molecular weights of 120-140 kD, besides GBSS I and GBSS II.

Antibody anti-SS3 was then used to screen a cDNA library from potato tubers for sequences encoding the soluble starch synthases from potato. For this purpose, a cDNA library prepared as described in Example 1 was used. For an analysis of the phage plaques they were transferred onto nitrocellulose filters which were previously incubated for 30-60 min in a 10 mM IPTG solution and then dried on filter paper. The transfer was carried out for 3 hrs at 37° C. The filters were then incubated for 30 min at room temperature in block reagent and washed twice for 5-10 min in TBST buffer. The filters were shaken for 1 hr at room temperature or for 16 hrs at 4° C. with the polyclonal antibody anti-SS3 in suitable dilution. Plaques expressing a protein that was recognized by antibody anti-SS3 were identified using the "Blotting detection kit for rabbit antibodies RPN 23" (Amersham, UK) according to the manufacturer's instructions.

Phage clones of the cDNA library expressing a protein that was recognized by antibody anti-SS3 were further purified using standard techniques. With the help of the in vivo excision method (Stratagene) E. coli clones were obtained from positive phage clones, which contain a double-stranded pBluescript II SK plasmid with the corresponding cDNA insert between the EcoRI and the Xho I restriction site of the polylinker. After ascertaining the size and the restriction pattern of the inserts a suitable clone was subjected to sequence analysis.

EXAMPLE 8 Sequence Analysis of the cDNA Insert of Plasmid pSSSA

Plasmid NSSA (FIG. 1) was isolated from an E. coli clone obtained according to Example 7 and its cDNA insert was determined by standard techniques using the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 74 (1977), 5463-5467). The insert is 2303 bp long. The nucleotide sequence is indicated under Seq ID No. 1. The corresponding amino acid sequence is depicted under Seq ID No. 2.

A sequence analysis and a sequence comparison with known DNA sequences showed that the sequence depicted under Seq ID No. 1 is new and comprises a partial coding region encoding a protein having homology to starch synthases from various organisms. The protein encoded by this cDNA insert or by sequences hybridizing thereto is designated SSSA within this application.

This DNA sequence differs from the DNA sequence depicted under SEQ ID NO: 3 which likewise encodes a soluble starch synthase from potato and could not be isolated from a cDNA library from potato tubers using the method described in Example 1.

EXAMPLE 9 Isolation of the Full-length cDNA Encoding the SSS A Isotype of the Soluble Starch Synthase from Solanum tuberosum

A leaf-specific cDNA expression library from Solanum tuberosum L. cv. Desiree (Koβmann et al., Planta 186 (1992), 7-12) was screened for full-length clones by standard techniques using hybridization to a 5' fragment of the cDNA insert of plasmid pSSSA (2.3 kb). As a result, a clone could be isolated that contains a cDNA insert that is about 1.86 kb longer in the 5' region. The cDNA insert had an entire length of about 4.16 kb.

EXAMPLE 10 Sequence Analysis of the cDNA Insert of Plasmid pSSSA-VK

Plasmid PSSSA-VK was isolated from an E. coli clone obtained according to Example 9 and its cDNA insert was determined by standard techniques using the dideoxynucleotide method (Sanger et al., Proc. Natl. Acad. Sci. USA 74 (1977), 5463-5467). The insert is about 4.16 kb long. The nucleotide sequence is indicated under Seq ID No. 11. The corresponding amino acid sequence is depicted under Seq ID No. 12. The molecular weight derived from the amino acid sequence of the SSSA protein is about 135 kD.

EXAMPLE 11 Construction of Plasmid p35S-anti-SSSA and Introduction of the Plasmid into the Genome of Potato Plants

From plasmid pSSSA a DNA fragment of about 2.1 kb was isolated using the restriction endonucleases Xba I and Asp 718 which comprises the coding region for the A isotype of the soluble starch synthase from potato, and was ligated into vector pBinAR Hyg (DSM 9505) which was digested with Xba I and Asp 718.

The insertion of the cDNA fragment results in an expression cassette which is composed of fragments A, B and C as follows (FIG. 3):

Fragment A (529 bp) contains the 35S promoter of the Cauliflower mosaic virus (CaMV). The fragment comprises nucleotides 6909 to 7437 of the CaMV (Franck et al., Cell 21 (1980), 285-294).

Fragment B contains besides flanking regions the protein-encoding region of the A isotype of the soluble starch synthase from Solanum tuberosum. This region was isolated as Xba I/Asp 718 fragment from pSSSA as described above and was fused to the 35S promoter in pBinAR Hyg in antisense orientation.

Fragment C (192 bp) contains the polyadenylation signal of gene 3 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846).

The size of plasmid p35S-anti-SSSA is about 13 kb.

The plasmid was transferred to potato plants using Agrobacteria-mediated transformation as described above. Whole plants were regenerated from the transformed cells.

As a result of transformation the transgenic potato plants exhibited a reduced activity of A isotype of the soluble starch synthase (cf. FIG. 8).

The starch produced by these plants differs from the starch synthesized by wild-type plants in its phosphate content, in the viscosity of aqueous solutions, its pastification properties and the mean granule size. The results are depicted in Table I.

The phosphate content of the starch produced in transgenic plants is at least 30%, preferably 50%, particularly 70% higher than that of the starch synthesized by the wild-type plants.

The final viscosity of the starch from SSS A "antisense" plants exhibits values that are at least 10%, preferably 20%, particularly 30% lower than those of the starch synthesized by wild-type plants.

The pastification temperature, the maximum viscosity and the mean granule size of the modified starch is clearly lower than that of the starch produced in wild-type plants (see Table I).

                  TABLE I                                                          ______________________________________                                         Characteristics of the starch from wild-type and SSS A                           "antisense" potato plants                                                                  Wild-type Line 25    Line 39                                     ______________________________________                                         Phosphate content [nmol                                                                      8.50 ± 0.4                                                                            14.61 ± 0.3                                                                            14.54 ± 0.2                                mg.sup.-1 starch.sup.-1 ]                                                      Pastification temperature 69.5 67.4 66.2                                       [° C.]                                                                  Maximum viscosity [cP] 4044 3720 3756                                          Final viscosity at 50° C. 3312 2904 2400                                [cP]                                                                           Mean granule size [μm] 29 24 27                                           ______________________________________                                    

EXAMPLE 12 Construction of Plasmid p35S-anti-SSSB and Introduction of the Plasmid into the Genome of Potato Plants

From plasmid pSSSB a DNA fragment of about 1.8 kb was isolated using the restriction endonucleases Xho I and Spe I which comprises the coding region for the B isotype of the soluble starch synthase from potato, and was ligated into vector pBinAR Hyg (DSM 9505) which was digested with Sma I.

The insertion of the cDNA fragment results in an expression cassette which is composed of fragments A, B and C as follows (FIG. 4):

Fragment A (529 bp) contains the 35S promoter of the Cauliflower mosaic virus (CaMV). The fragment comprises nucleotides 6909 to 7437 of the CaMV (Franck et al., Cell 21 (1980), 285-294).

Fragment B contains besides flanking regions the protein-encoding region of the B isotype of the soluble starch synthase from Solanum tuberosum. This region was isolated as Xho I/Spe I fragment from pSSSB as described above and was fused to the 35S promoter in pBinAR Hyg in antisense orientation.

Fragment C (192 bp) contains the polyadenylation signal of gene 3 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846).

The size of plasmid p35S-anti-SSSB is about 13 kb.

The plasmid was transferred to potato plants using Agrobacteria-mediated transformation as described above. Whole plants were regenerated from the transformed cells.

As a result of transformation the transgenic potato plants exhibited a reduced activity of B isotype of the soluble starch synthase (cf. FIG. 8).

EXAMPLE 13 Construction of Plasmid p35S-anti-GBSS II and Introduction of the Plasmid into the Genome of Potato Plants

From plasmid pGBSS II a DNA fragment of about 1.9 kb was isolated using the restriction endonucleases Asp 718 and Sma I which comprises the coding region for the GBSS II isotype of the soluble starch synthase from potato. The ends of the fragment were filled in with the T4 polymerase and the fragment was ligated into vector pBinAR Hyg (DSM 9505) which was digested with Sma I.

The insertion of the cDNA fragment results in an expression cassette which is composed of fragments A, B and C as follows (FIG. 6):

Fragment A (529 bp) contains the 35S promoter of the Cauliflower mosaic virus (CaMV). The fragment comprises nucleotides 6909 to 7437 of the CaMV (Franck et al., Cell 21 (1980), 285-294).

Fragment B contains besides flanking regions part of the protein-encoding region of the GBSS II isotype of the starch synthase from Solanum tuberosum. This region was isolated as Asp 718/Sma I fragment from pGBSS II as described above and was fused to the 35S promoter in pBinAR Hyg in antisense orientation once the ends of the fragment had been filled in.

Fragment C (192 bp) contains the polyadenylation signal of gene 3 of the T-DNA of the Ti plasmid pTiACH5 (Gielen et al., EMBO J. 3 (1984), 835-846).

The size of plasmid p35S-anti-GBSS II is about 13 kb.

The plasmid was transferred to potato plants using Agrobacteria-mediated transformation as described above. Whole plants were regenerated from the transformed cells.

As a result of transformation the transgenic potato plants exhibited a reduced activity of GBSS II isotype of the starch synthase (cf. FIG. 8).

The starch produced by these plants differs from the starch synthesized by wild-type plants in its phosphate content, in the viscosity, its pastification properties and the mean granule size. The results are depicted in Table II.

                  TABLE II                                                         ______________________________________                                         Characteristics of the starch from wild-type and GBSS II                         "antisense" potato plants                                                             Wild-type Line 14   Line 35 Line 44                                   ______________________________________                                         Phosphate                                                                               6.99 ± 0.19                                                                           4.52 ± 0.2                                                                            4.13 ± 0.06                                                                         3.76 ± 0.12                              content [nmol                                                                  mg.sup.-1 starch.sup.-1 ]                                                      Pastification 64.1 62.55 63.25 63.55                                           temperature                                                                    [° C.]                                                                  Maximum 4057 2831 2453 2587                                                    viscosity [cP]                                                                 Final 2849 2816 2597 2587                                                      viscosity at                                                                   50° C. [cP]                                                             Mean granule 37 32 31 32                                                       size [μm]                                                                 ______________________________________                                    

The phosphate content of the starch produced in transgenic plants is at least 35%, preferably 40%, particularly 45% lower than that of the starch synthesized by the wild-type plants.

The maximum viscosity of the starch from GBSS II "antisense" plants exhibits values that are at least 30%, preferably 35%, particularly 40% lower than those of the starch synthesized by wild-type plants.

The pastification temperature and the final viscosity of the modified starch is below that of the starch produced in wild-type plants. The mean granule size of the starch produced in transgenic plants is clearly smaller than that of wild-type starch.

EXAMPLE 14 Overexpression of the Soluble Starch Synthases SSS A and SSS B in E. coli

For an overexpression of soluble starch synthases in E. coli strain G6MD2 was cultivated, which is a mutant which exhibits a deletion both in the glg and in the mal operon. Hence it possesses neither the glycogen synthase (glgA, the branching enzyme (glgB) and the AGPase (glgC) nor the amylomaltase (malQ), the maltodextrin phosphorylase (malP) nor the other proteins involved in the metabolization of maltose. Therefore, mutant G6MD2 is not capable of synthesizing glycogen via the ADP glucose pathway nor α-1,4 glucans starting from maltose.

Cells of this mutant were transformed with the cDNA clones pSSSA-VK and pSSSB-VK. The E. coli cells expressing starch synthases were broken up after 2 hrs induction with IPTG in 50 mM Tris-HCl pH 7.6, 10% glycerol, 2 mM EDTA, 2 mM DTT and 0.4 mM PMSF by ultrasonification. As a control, cells transformed with pBluescript were used. Intact cells and cell wall material were removed by centrifugation for 10 min at 13,000 g. Then, the protein concentration of the supernatant was determined. 100 μg protein extract were added to the reaction buffer (final concentration: 50 mM tricine NaOH pH 8.5, 25 mM potassium acetate, 2 mM EDTA and 2 mM DTT, 1 mM ADP glucose). For an examination of the citrate-stimulated reaction (primer-independent) the reaction buffer additionally contained 0.5 M sodium citrate, while the primer-dependent reaction was performed in the presence of 0.02% (wt./vol.) maltooligosaccharides (Glucidex 19; 1-30 glucose units). The reaction was carried out overnight at room temperature. The synthesized glucans were detected via Lugol's solution and examined spectralphotometrically for further characterization.

Both the SSS A isotype and the SSS B isotype synthesized glucans in the primer-dependent reaction (absence of citrate). The absorption maximum of the glucan synthesized by SSS A was at 614 nm which corresponds to a glucan of about 150 glucose units. The glucan produced by SSS A absorbed at 575 nm, which points to the synthesis of short-chain glucans having a polymerization degree of about 50 glucose units.

In the primer-independent, i.e., citrate-stimulated, reaction SSS B isotype alone yielded a glucan which absorbed at 612 nm after dyeing with Lugol's solution. The SSS A isotype showed no activity in the primer-independent reaction and therefore did not synthesize any glucan.

The protein extracts from the cells transformed with pBluescript did not yield any products in any of the reactions.

    __________________________________________________________________________     #             SEQUENCE LISTING                                                    - -  - - (1) GENERAL INFORMATION:                                              - -    (iii) NUMBER OF SEQUENCES: 17                                           - -  - - (2) INFORMATION FOR SEQ ID NO: 1:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 2303 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: unknown                                                      (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA                                               - -    (iii) HYPOTHETICAL: NO                                                  - -     (iv) ANTI-SENSE: NO                                                    - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv Berolina                                                        (F) TISSUE TYPE: tuber - #tissue                                      - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in pBluescriptSKII+                      - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:3..2033                                                           (D) OTHER INFORMATION:/fun - #ction= "Polymerization of            starch"                                                                                         /product=- # "Starch synthase"                                   - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #1:                            - - GG CAC GAG GTC AAA AAG CTT GTT AAA TCT GAG - # AGA ATA GAT GGT GAT             47                                                                          His Glu Val Lys Lys Leu Val Lys Ser - #Glu Arg Ile Asp Gly Asp                   1             - #  5                - #  10                - #  15         - - TGG TGG TAT ACA GAG GTT GTT ATT CCT GAT CA - #G GCA CTT TTC TTG GAT            95                                                                        Trp Trp Tyr Thr Glu Val Val Ile Pro Asp Gl - #n Ala Leu Phe Leu Asp                             20 - #                 25 - #                 30               - - TGG GTT TTT GCT GAT GGT CCA CCC AAG CAT GC - #C ATT GCT TAT GAT AAC           143                                                                        Trp Val Phe Ala Asp Gly Pro Pro Lys His Al - #a Ile Ala Tyr Asp Asn                         35     - #             40     - #             45                   - - AAT CAC CGC CAA GAC TTC CAT GCC ATT GTC CC - #C AAC CAC ATT CCG GAG           191                                                                        Asn His Arg Gln Asp Phe His Ala Ile Val Pr - #o Asn His Ile Pro Glu                     50         - #         55         - #         60                       - - GAA TTA TAT TGG GTT GAG GAA GAA CAT CAG AT - #C TTT AAG ACA CTT CAG           239                                                                        Glu Leu Tyr Trp Val Glu Glu Glu His Gln Il - #e Phe Lys Thr Leu Gln                 65             - #     70             - #     75                           - - GAG GAG AGA AGG CTT AGA GAA GCG GCT ATG CG - #T GCT AAG GTT GAA AAA           287                                                                        Glu Glu Arg Arg Leu Arg Glu Ala Ala Met Ar - #g Ala Lys Val Glu Lys             80                 - # 85                 - # 90                 - # 95        - - ACA GCA CTT CTG AAA ACT GAA ACA AAG GAA AG - #A ACT ATG AAA TCA TTT           335                                                                        Thr Ala Leu Leu Lys Thr Glu Thr Lys Glu Ar - #g Thr Met Lys Ser Phe                            100  - #               105  - #               110               - - TTA CTG TCT CAG AAG CAT GTA GTA TAT ACT GA - #G CCT CTT GAT ATC CAA           383                                                                        Leu Leu Ser Gln Lys His Val Val Tyr Thr Gl - #u Pro Leu Asp Ile Gln                        115      - #           120      - #           125                   - - GCT GGA AGC AGC GTC ACA GTT TAC TAT AAT CC - #C GCC AAT ACA GTA CTT           431                                                                        Ala Gly Ser Ser Val Thr Val Tyr Tyr Asn Pr - #o Ala Asn Thr Val Leu                    130          - #       135          - #       140                       - - AAT GGT AAA CCT GAA ATT TGG TTC AGA TGT TC - #A TTT AAT CGC TGG ACT           479                                                                        Asn Gly Lys Pro Glu Ile Trp Phe Arg Cys Se - #r Phe Asn Arg Trp Thr                145              - #   150              - #   155                           - - CAC CGC CTG GGT CCA TTG CCA CCT CAG AAA AT - #G TCG CCT GCT GAA AAT           527                                                                        His Arg Leu Gly Pro Leu Pro Pro Gln Lys Me - #t Ser Pro Ala Glu Asn            160                 1 - #65                 1 - #70                 1 -       #75                                                                               - - GGC ACC CAT GTC AGA GCA ACT GTG AAG GTT CC - #A TTG GAT GCA TAT         ATG      575                                                                     Gly Thr His Val Arg Ala Thr Val Lys Val Pr - #o Leu Asp Ala Tyr Met                           180  - #               185  - #               190               - - ATG GAT TTT GTA TTT TCC GAG AGA GAA GAT GG - #T GGG ATT TTT GAC AAT           623                                                                        Met Asp Phe Val Phe Ser Glu Arg Glu Asp Gl - #y Gly Ile Phe Asp Asn                        195      - #           200      - #           205                   - - AAG AGC GGA ATG GAC TAT CAC ATA CCT GTG TT - #T GGA GGA GTC GCT AAA           671                                                                        Lys Ser Gly Met Asp Tyr His Ile Pro Val Ph - #e Gly Gly Val Ala Lys                    210          - #       215          - #       220                       - - GAA CCT CCA ATG CAT ATT GTC CAT ATT GCT GT - #C GAA ATG GCA CCA ATT           719                                                                        Glu Pro Pro Met His Ile Val His Ile Ala Va - #l Glu Met Ala Pro Ile                225              - #   230              - #   235                           - - GCA AAG GTG GGA GGC CTT GGT GAT GTT GTT AC - #T AGT CTT TCC CGT GCT           767                                                                        Ala Lys Val Gly Gly Leu Gly Asp Val Val Th - #r Ser Leu Ser Arg Ala            240                 2 - #45                 2 - #50                 2 -       #55                                                                               - - GTT CAA GAT TTA AAC CAT AAT GTG GAT ATT AT - #C TTA CCT AAG TAT         GAC      815                                                                     Val Gln Asp Leu Asn His Asn Val Asp Ile Il - #e Leu Pro Lys Tyr Asp                           260  - #               265  - #               270               - - TGT TTG AAG ATG AAT AAT GTG AAG GAC TTT CG - #G TTT CAC AAA AAC TAC           863                                                                        Cys Leu Lys Met Asn Asn Val Lys Asp Phe Ar - #g Phe His Lys Asn Tyr                        275      - #           280      - #           285                   - - TTT TGG GGT GGG ACT GAA ATA AAA GTA TGG TT - #T GGA AAG GTG GAA GGT           911                                                                        Phe Trp Gly Gly Thr Glu Ile Lys Val Trp Ph - #e Gly Lys Val Glu Gly                    290          - #       295          - #       300                       - - CTC TCG GTC TAT TTT TTG GAG CCT CAA AAC GG - #G TTA TTT TCG AAA GGG           959                                                                        Leu Ser Val Tyr Phe Leu Glu Pro Gln Asn Gl - #y Leu Phe Ser Lys Gly                305              - #   310              - #   315                           - - TGC GTC TAT GGT TGT AGC AAT GAT GGT GAA CG - #A TTT GGT TTC TTC TGT          1007                                                                        Cys Val Tyr Gly Cys Ser Asn Asp Gly Glu Ar - #g Phe Gly Phe Phe Cys            320                 3 - #25                 3 - #30                 3 -       #35                                                                               - - CAC GCG GCT TTG GAG TTT CTT CTG CAA GGT GG - #A TTT AGT CCG GAT         ATC     1055                                                                     His Ala Ala Leu Glu Phe Leu Leu Gln Gly Gl - #y Phe Ser Pro Asp Ile                           340  - #               345  - #               350               - - ATT CAT TGC CAT GAT TGG TCT AGT GCT CCT GT - #T GCT TGG CTC TTT AAG          1103                                                                        Ile His Cys His Asp Trp Ser Ser Ala Pro Va - #l Ala Trp Leu Phe Lys                        355      - #           360      - #           365                   - - GAA CAA TAT ACA CAC TAT GGT CTA AGC AAA TC - #T CGT ATA GTC TTC ACG          1151                                                                        Glu Gln Tyr Thr His Tyr Gly Leu Ser Lys Se - #r Arg Ile Val Phe Thr                    370          - #       375          - #       380                       - - ATA CAT AAT CTT GAA TTT GGG GCA GAT CTC AT - #T GGG AGA GCA ATG ACT          1199                                                                        Ile His Asn Leu Glu Phe Gly Ala Asp Leu Il - #e Gly Arg Ala Met Thr                385              - #   390              - #   395                           - - AAC GCA GAC AAA GCT ACA ACA GTT TCA CCA AC - #T TAC TCA CAG GAG GTG          1247                                                                        Asn Ala Asp Lys Ala Thr Thr Val Ser Pro Th - #r Tyr Ser Gln Glu Val            400                 4 - #05                 4 - #10                 4 -       #15                                                                               - - TCT GGA AAC CCT GTA ATT GCG CCT CAC CTT CA - #C AAG TTC CAT GGT         ATA     1295                                                                     Ser Gly Asn Pro Val Ile Ala Pro His Leu Hi - #s Lys Phe His Gly Ile                           420  - #               425  - #               430               - - GTG AAT GGG ATT GAC CCA GAT ATT TGG GAT CC - #T TTA AAC GAT AAG TTC          1343                                                                        Val Asn Gly Ile Asp Pro Asp Ile Trp Asp Pr - #o Leu Asn Asp Lys Phe                        435      - #           440      - #           445                   - - ATT CCG ATT CCG TAC ACC TCA GAA AAC GTT GT - #T GAA GGC AAA ACA GCA          1391                                                                        Ile Pro Ile Pro Tyr Thr Ser Glu Asn Val Va - #l Glu Gly Lys Thr Ala                    450          - #       455          - #       460                       - - GCC AAG GAA GCT TTG CAG CGA AAA CTT GGA CT - #G AAA CAG GCT GAC CTT          1439                                                                        Ala Lys Glu Ala Leu Gln Arg Lys Leu Gly Le - #u Lys Gln Ala Asp Leu                465              - #   470              - #   475                           - - CCT TTG GTA GGA ATT ATC ACC CGC TTA ACT CA - #C CAG AAA GGA ATC CAC          1487                                                                        Pro Leu Val Gly Ile Ile Thr Arg Leu Thr Hi - #s Gln Lys Gly Ile His            480                 4 - #85                 4 - #90                 4 -       #95                                                                               - - CTC ATT AAA CAT GCT ATT TGG CGC ACC TTG GA - #A CGG AAC GGA CAG         GTA     1535                                                                     Leu Ile Lys His Ala Ile Trp Arg Thr Leu Gl - #u Arg Asn Gly Gln Val                           500  - #               505  - #               510               - - GTC TTG CTT GGT TCT GCT CCT GAT CCT AGG GT - #A CAA AAC GAT TTT GTT          1583                                                                        Val Leu Leu Gly Ser Ala Pro Asp Pro Arg Va - #l Gln Asn Asp Phe Val                        515      - #           520      - #           525                   - - AAT TTG GCA AAT CAA TTG CAC TCC AAA TAT AA - #T GAC CGC GCA CGA CTC          1631                                                                        Asn Leu Ala Asn Gln Leu His Ser Lys Tyr As - #n Asp Arg Ala Arg Leu                    530          - #       535          - #       540                       - - TGT CTA ACA TAT GAC GAG CCA CTT TCT CAC CT - #G ATA TAT GCT GGT GCT          1679                                                                        Cys Leu Thr Tyr Asp Glu Pro Leu Ser His Le - #u Ile Tyr Ala Gly Ala                545              - #   550              - #   555                           - - GAT TTT ATT CTA GTT CCT TCA ATA TTT GAG CC - #A TGT GGA CTA ACA CAA          1727                                                                        Asp Phe Ile Leu Val Pro Ser Ile Phe Glu Pr - #o Cys Gly Leu Thr Gln            560                 5 - #65                 5 - #70                 5 -       #75                                                                               - - CTT ACC GCT ATG AGA TAT GGT TCA ATT CCA GT - #C GTG CGT AAA ACT         GGA     1775                                                                     Leu Thr Ala Met Arg Tyr Gly Ser Ile Pro Va - #l Val Arg Lys Thr Gly                           580  - #               585  - #               590               - - GGA CTT TAT GAT ACT GTA TTT GAT GTT GAC CA - #T GAC AAA GAG AGA GCA          1823                                                                        Gly Leu Tyr Asp Thr Val Phe Asp Val Asp Hi - #s Asp Lys Glu Arg Ala                        595      - #           600      - #           605                   - - CAA CAG TGT GGT CTT GAA CCA AAT GGA TTC AG - #C TTT GAT GGA GCA GAT          1871                                                                        Gln Gln Cys Gly Leu Glu Pro Asn Gly Phe Se - #r Phe Asp Gly Ala Asp                    610          - #       615          - #       620                       - - GCT GGC GGA GTT GAT TAT GCT CTG AAT AGA GC - #T CTC TCT GCT TGG TAC          1919                                                                        Ala Gly Gly Val Asp Tyr Ala Leu Asn Arg Al - #a Leu Ser Ala Trp Tyr                625              - #   630              - #   635                           - - GAT GGT CGG GAT TGG TTC AAC TCT TTA TGC AA - #G CAG GTC ATG GAA CAA          1967                                                                        Asp Gly Arg Asp Trp Phe Asn Ser Leu Cys Ly - #s Gln Val Met Glu Gln            640                 6 - #45                 6 - #50                 6 -       #55                                                                               - - GAT TGG TCT TGG AAC CGA CCT GCT CTT GAT TA - #T TTG GAG CTT TAC         CAT     2015                                                                     Asp Trp Ser Trp Asn Arg Pro Ala Leu Asp Ty - #r Leu Glu Leu Tyr His                           660  - #               665  - #               670               - - GCT GCT AGA AAG TTA GAA TAGTTAGTTT GTGAGATGCT AG - #CAGAAAAA                 2063                                                                        Ala Ala Arg Lys Leu Glu                                                                    675                                                                 - - TTCACGAGAT CTGCAATCTG TACAGGTTCA GTGTTTGCGT CTGGACAGCT TT -              #TTATTTCC   2123                                                                  - - TATATCAAAG TATAAATCAA GTCTACACTG AGATCAATAG CAGACAGTCC TC -             #AGTTCATT   2183                                                                  - - TCATTTTTTG TGCAACATAT GAAAGAGCTT AGCCTCTAAT AATGTAGTCA TT -             #GATGATTA   2243                                                                  - - TTTGTTTTGG GAAGAAATGA GAAATCAAAG GATGCAAAAT ACTCTGAAAA AA -             #AAAAAAAA   2303                                                                  - -  - - (2) INFORMATION FOR SEQ ID NO: 2:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 677 amino - #acids                                                 (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #2:                            - - His Glu Val Lys Lys Leu Val Lys Ser Glu Ar - #g Ile Asp Gly Asp         Trp                                                                                1               5 - #                 10 - #                 15              - - Trp Tyr Thr Glu Val Val Ile Pro Asp Gln Al - #a Leu Phe Leu Asp Trp                    20     - #             25     - #             30                   - - Val Phe Ala Asp Gly Pro Pro Lys His Ala Il - #e Ala Tyr Asp Asn Asn                35         - #         40         - #         45                       - - His Arg Gln Asp Phe His Ala Ile Val Pro As - #n His Ile Pro Glu Glu            50             - #     55             - #     60                           - - Leu Tyr Trp Val Glu Glu Glu His Gln Ile Ph - #e Lys Thr Leu Gln Glu        65                 - # 70                 - # 75                 - # 80        - - Glu Arg Arg Leu Arg Glu Ala Ala Met Arg Al - #a Lys Val Glu Lys Thr                        85 - #                 90 - #                 95               - - Ala Leu Leu Lys Thr Glu Thr Lys Glu Arg Th - #r Met Lys Ser Phe Leu                   100      - #           105      - #           110                   - - Leu Ser Gln Lys His Val Val Tyr Thr Glu Pr - #o Leu Asp Ile Gln Ala               115          - #       120          - #       125                       - - Gly Ser Ser Val Thr Val Tyr Tyr Asn Pro Al - #a Asn Thr Val Leu Asn           130              - #   135              - #   140                           - - Gly Lys Pro Glu Ile Trp Phe Arg Cys Ser Ph - #e Asn Arg Trp Thr His       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Arg Leu Gly Pro Leu Pro Pro Gln Lys Met Se - #r Pro Ala Glu Asn         Gly                                                                                              165  - #               170  - #               175              - - Thr His Val Arg Ala Thr Val Lys Val Pro Le - #u Asp Ala Tyr Met Met                   180      - #           185      - #           190                   - - Asp Phe Val Phe Ser Glu Arg Glu Asp Gly Gl - #y Ile Phe Asp Asn Lys               195          - #       200          - #       205                       - - Ser Gly Met Asp Tyr His Ile Pro Val Phe Gl - #y Gly Val Ala Lys Glu           210              - #   215              - #   220                           - - Pro Pro Met His Ile Val His Ile Ala Val Gl - #u Met Ala Pro Ile Ala       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Lys Val Gly Gly Leu Gly Asp Val Val Thr Se - #r Leu Ser Arg Ala         Val                                                                                              245  - #               250  - #               255              - - Gln Asp Leu Asn His Asn Val Asp Ile Ile Le - #u Pro Lys Tyr Asp Cys                   260      - #           265      - #           270                   - - Leu Lys Met Asn Asn Val Lys Asp Phe Arg Ph - #e His Lys Asn Tyr Phe               275          - #       280          - #       285                       - - Trp Gly Gly Thr Glu Ile Lys Val Trp Phe Gl - #y Lys Val Glu Gly Leu           290              - #   295              - #   300                           - - Ser Val Tyr Phe Leu Glu Pro Gln Asn Gly Le - #u Phe Ser Lys Gly Cys       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Val Tyr Gly Cys Ser Asn Asp Gly Glu Arg Ph - #e Gly Phe Phe Cys         His                                                                                              325  - #               330  - #               335              - - Ala Ala Leu Glu Phe Leu Leu Gln Gly Gly Ph - #e Ser Pro Asp Ile Ile                   340      - #           345      - #           350                   - - His Cys His Asp Trp Ser Ser Ala Pro Val Al - #a Trp Leu Phe Lys Glu               355          - #       360          - #       365                       - - Gln Tyr Thr His Tyr Gly Leu Ser Lys Ser Ar - #g Ile Val Phe Thr Ile           370              - #   375              - #   380                           - - His Asn Leu Glu Phe Gly Ala Asp Leu Ile Gl - #y Arg Ala Met Thr Asn       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Ala Asp Lys Ala Thr Thr Val Ser Pro Thr Ty - #r Ser Gln Glu Val         Ser                                                                                              405  - #               410  - #               415              - - Gly Asn Pro Val Ile Ala Pro His Leu His Ly - #s Phe His Gly Ile Val                   420      - #           425      - #           430                   - - Asn Gly Ile Asp Pro Asp Ile Trp Asp Pro Le - #u Asn Asp Lys Phe Ile               435          - #       440          - #       445                       - - Pro Ile Pro Tyr Thr Ser Glu Asn Val Val Gl - #u Gly Lys Thr Ala Ala           450              - #   455              - #   460                           - - Lys Glu Ala Leu Gln Arg Lys Leu Gly Leu Ly - #s Gln Ala Asp Leu Pro       465                 4 - #70                 4 - #75                 4 -       #80                                                                               - - Leu Val Gly Ile Ile Thr Arg Leu Thr His Gl - #n Lys Gly Ile His         Leu                                                                                              485  - #               490  - #               495              - - Ile Lys His Ala Ile Trp Arg Thr Leu Glu Ar - #g Asn Gly Gln Val Val                   500      - #           505      - #           510                   - - Leu Leu Gly Ser Ala Pro Asp Pro Arg Val Gl - #n Asn Asp Phe Val Asn               515          - #       520          - #       525                       - - Leu Ala Asn Gln Leu His Ser Lys Tyr Asn As - #p Arg Ala Arg Leu Cys           530              - #   535              - #   540                           - - Leu Thr Tyr Asp Glu Pro Leu Ser His Leu Il - #e Tyr Ala Gly Ala Asp       545                 5 - #50                 5 - #55                 5 -       #60                                                                               - - Phe Ile Leu Val Pro Ser Ile Phe Glu Pro Cy - #s Gly Leu Thr Gln         Leu                                                                                              565  - #               570  - #               575              - - Thr Ala Met Arg Tyr Gly Ser Ile Pro Val Va - #l Arg Lys Thr Gly Gly                   580      - #           585      - #           590                   - - Leu Tyr Asp Thr Val Phe Asp Val Asp His As - #p Lys Glu Arg Ala Gln               595          - #       600          - #       605                       - - Gln Cys Gly Leu Glu Pro Asn Gly Phe Ser Ph - #e Asp Gly Ala Asp Ala           610              - #   615              - #   620                           - - Gly Gly Val Asp Tyr Ala Leu Asn Arg Ala Le - #u Ser Ala Trp Tyr Asp       625                 6 - #30                 6 - #35                 6 -       #40                                                                               - - Gly Arg Asp Trp Phe Asn Ser Leu Cys Lys Gl - #n Val Met Glu Gln         Asp                                                                                              645  - #               650  - #               655              - - Trp Ser Trp Asn Arg Pro Ala Leu Asp Tyr Le - #u Glu Leu Tyr His Ala                   660      - #           665      - #           670                   - - Ala Arg Lys Leu Glu                                                               675                                                                     - -  - - (2) INFORMATION FOR SEQ ID NO: 3:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 1758 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: unknown                                                      (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA to mRNA                                       - -    (iii) HYPOTHETICAL: NO                                                  - -     (iv) ANTI-SENSE: NO                                                    - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv. Berolin - #a                                                   (F) TISSUE TYPE: tuber - #tissue                                      - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in pBluescriptSKII+                      - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:1..1377                                                           (D) OTHER INFORMATION:/fun - #ction= "Polymerization of                             starch"                                                                        /product=- # "Starch synthase"                                   - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #3:                            - - GGC ACG AGC AAT GCT GTT GAC CTT GAT GTG CG - #G GCC ACT GTC CAT TGC            48                                                                        Gly Thr Ser Asn Ala Val Asp Leu Asp Val Ar - #g Ala Thr Val His Cys              1               5 - #                 10 - #                 15               - - TTT GGT GAT GCA CAG GAA GTA GCC TTC TAC CA - #T GAA TAC AGG GCA GGT            96                                                                        Phe Gly Asp Ala Gln Glu Val Ala Phe Tyr Hi - #s Glu Tyr Arg Ala Gly                         20     - #             25     - #             30                   - - GTT GAT TGG GTA TTT GTG GAC CAC TCT TCT TA - #C CGC AGA CCT GGA ACG           144                                                                        Val Asp Trp Val Phe Val Asp His Ser Ser Ty - #r Arg Arg Pro Gly Thr                     35         - #         40         - #         45                       - - CCA TAT GGT GAT ATT TAT GGT GCA TTT GGT GA - #T AAT CAG TTT CGC TTC           192                                                                        Pro Tyr Gly Asp Ile Tyr Gly Ala Phe Gly As - #p Asn Gln Phe Arg Phe                 50             - #     55             - #     60                           - - ACT TTG CTT TCT CAC GCA GCA TGT GAA GCG CC - #A TTG GTT CTT CCA CTG           240                                                                        Thr Leu Leu Ser His Ala Ala Cys Glu Ala Pr - #o Leu Val Leu Pro Leu             65                 - # 70                 - # 75                 - # 80        - - GGA GGG TTC ACT TAT GGA GAG AAG TGC TTG TT - #T CTC GCT AAT GAT TGC           288                                                                        Gly Gly Phe Thr Tyr Gly Glu Lys Cys Leu Ph - #e Leu Ala Asn Asp Cys                             85 - #                 90 - #                 95               - - AAC GCT GCC TTG GTT CCT TTA CTT TTA GCG GC - #C AAG TAT CGT CCT TAT           336                                                                        Asn Ala Ala Leu Val Pro Leu Leu Leu Ala Al - #a Lys Tyr Arg Pro Tyr                        100      - #           105      - #           110                   - - GGT GTT TAC AAG GAT GCT CGT AGT ATT GTC GC - #A ATA CAC AAC ATT GCA           384                                                                        Gly Val Tyr Lys Asp Ala Arg Ser Ile Val Al - #a Ile His Asn Ile Ala                    115          - #       120          - #       125                       - - CAT CAG GGA GTG GAG CCT GCA GTA ACC TAC AA - #T AAT TTG GGT TTG CCT           432                                                                        His Gln Gly Val Glu Pro Ala Val Thr Tyr As - #n Asn Leu Gly Leu Pro                130              - #   135              - #   140                           - - CCA CAA TGG TAT GGA GCA GTT GAA TGG ATA TT - #T CCC ACA TGG GCA AGG           480                                                                        Pro Gln Trp Tyr Gly Ala Val Glu Trp Ile Ph - #e Pro Thr Trp Ala Arg            145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - GCG CAT GCG CTT GAC ACT GGT GAA ACA GTG AA - #C GTT TTG AAA GGG         GCA      528                                                                     Ala His Ala Leu Asp Thr Gly Glu Thr Val As - #n Val Leu Lys Gly Ala                           165  - #               170  - #               175               - - ATA GCA GTT GCT GAT CGG ATA CTG ACA GTT AG - #C CAG GGA TAC TCA TGG           576                                                                        Ile Ala Val Ala Asp Arg Ile Leu Thr Val Se - #r Gln Gly Tyr Ser Trp                        180      - #           185      - #           190                   - - GAA ATA ACA ACT CCT GAA GGG GGA TAT GGG CT - #A CAT GAG CTG TTG AGC           624                                                                        Glu Ile Thr Thr Pro Glu Gly Gly Tyr Gly Le - #u His Glu Leu Leu Ser                    195          - #       200          - #       205                       - - AGT AGA CAG TCT GTT CTT AAT GGA ATT ACT AA - #T GGA ATA GAT GTT AAT           672                                                                        Ser Arg Gln Ser Val Leu Asn Gly Ile Thr As - #n Gly Ile Asp Val Asn                210              - #   215              - #   220                           - - GAT TGG AAC CCG TCG ACA GAT GAG CAT ATC GC - #T TCG CAT TAC TCC ATC           720                                                                        Asp Trp Asn Pro Ser Thr Asp Glu His Ile Al - #a Ser His Tyr Ser Ile            225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - AAT GAC CTC TCC CCC CCT GGA AAG GTT CAG TG - #C AAG ACT GAT CTG         CAA      768                                                                     Asn Asp Leu Ser Pro Pro Gly Lys Val Gln Cy - #s Lys Thr Asp Leu Gln                           245  - #               250  - #               255               - - AAG GAA CTG GGC CTT CCA ATT CGA CCC GAT TG - #T CCA CTG ATT GGA TTT           816                                                                        Lys Glu Leu Gly Leu Pro Ile Arg Pro Asp Cy - #s Pro Leu Ile Gly Phe                        260      - #           265      - #           270                   - - ATT GGA AGG CTG GAC TAC CAG AAA GGT GTT GA - #C ATA ATC CTG TCA GCA           864                                                                        Ile Gly Arg Leu Asp Tyr Gln Lys Gly Val As - #p Ile Ile Leu Ser Ala                    275          - #       280          - #       285                       - - ATT CCA GAA CTT ATG CAG AAT GAT GTC CAA GT - #T GTA ATG CTT GGA TCT           912                                                                        Ile Pro Glu Leu Met Gln Asn Asp Val Gln Va - #l Val Met Leu Gly Ser                290              - #   295              - #   300                           - - GGT GAG AAA CAA TAT GAA GAC TGG ATG AGA CA - #T ACA GAA AAT CTT TTT           960                                                                        Gly Glu Lys Gln Tyr Glu Asp Trp Met Arg Hi - #s Thr Glu Asn Leu Phe            305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - AAA GAC AAA TTT CGT GCT TGG GTT GGA TTT AA - #T GTT CCA GTT TCT         CAT     1008                                                                     Lys Asp Lys Phe Arg Ala Trp Val Gly Phe As - #n Val Pro Val Ser His                           325  - #               330  - #               335               - - AGG ATA ACA GCA GGA TGC GAC ATA CTA TTG AT - #G CCC TCA AGA TTC GAA          1056                                                                        Arg Ile Thr Ala Gly Cys Asp Ile Leu Leu Me - #t Pro Ser Arg Phe Glu                        340      - #           345      - #           350                   - - CCG TGT GGC TTA AAC CAA TTG TAT GCA ATG AG - #A TAT GGC ACC ATA CCT          1104                                                                        Pro Cys Gly Leu Asn Gln Leu Tyr Ala Met Ar - #g Tyr Gly Thr Ile Pro                    355          - #       360          - #       365                       - - ATT GTT CAT AGC ACG GGG GGC CTA AGA GAC AC - #A GTG AAG GAT TTT AAT          1152                                                                        Ile Val His Ser Thr Gly Gly Leu Arg Asp Th - #r Val Lys Asp Phe Asn                370              - #   375              - #   380                           - - CCA TAT GCT CAA GAA GGA AAA GGT GAA GGT AC - #C GGG TGG ACA TTT TCT          1200                                                                        Pro Tyr Ala Gln Glu Gly Lys Gly Glu Gly Th - #r Gly Trp Thr Phe Ser            385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - CCT CTA ACG AGT GAA AAG TTG TTT GAT ACA CT - #G AAG CTG GCG ATC         AGG     1248                                                                     Pro Leu Thr Ser Glu Lys Leu Phe Asp Thr Le - #u Lys Leu Ala Ile Arg                           405  - #               410  - #               415               - - ACT TAT ACA GAA CAT AAG TCA TCT TGG GAG GG - #A TTG ATG AAG AGA GGT          1296                                                                        Thr Tyr Thr Glu His Lys Ser Ser Trp Glu Gl - #y Leu Met Lys Arg Gly                        420      - #           425      - #           430                   - - ATG GGA AGG GAC TAT TCC TGG GAA AAT GCA GC - #C ATT CAA TAT GAG CAA          1344                                                                        Met Gly Arg Asp Tyr Ser Trp Glu Asn Ala Al - #a Ile Gln Tyr Glu Gln                    435          - #       440          - #       445                       - - GTT TTC ACC TGG GCC TTT ATA GAT CCT CCA TA - #T GTCAGATGAT TTATCAAGA     A   1397                                                                        Val Phe Thr Trp Ala Phe Ile Asp Pro Pro Ty - #r                                    450              - #   455                                                  - - AGATTGCAAA CGGGATACAT CATTAAACTA TACGCAGAGC TTTTGGTGCT AT -              #TAGCTACT   1457                                                                  - - GTCATTGGGC GCGGAATGTT TGTGGTTCTT TCTGATTCAG AGAGATCAAG TT -             #AGTTCCAA   1517                                                                  - - AGACATGTAG CCTGCCCCTG TCTGTGATGA AGTAAAACTA CAAAGGCAAT TA -             #GAAACCCA   1577                                                                  - - CCAACAACTG CCTCCTTTGG GAGAAGAGTG GAAATATGTA AAAAAGAATT TT -             #GAGTTTAA   1637                                                                  - - TGTCAATTGA ATTAATTATT CTCATTTTTA AAAAAAACAT CTCATCTCAT AC -             #AATATATA   1697                                                                  - - AAATTGATCA TGATTGATGC CCCCTAAAAA AAAAAAAAAA AAAAAAAAAA AA -             #AAAAAAAA   1757                                                                  - - A                  - #                  - #                  - #                  1758                                                                   - -  - - (2) INFORMATION FOR SEQ ID NO: 4:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 459 amino - #acids                                                 (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #4:                            - - Gly Thr Ser Asn Ala Val Asp Leu Asp Val Ar - #g Ala Thr Val His Cys         1               5 - #                 10 - #                 15               - - Phe Gly Asp Ala Gln Glu Val Ala Phe Tyr Hi - #s Glu Tyr Arg Ala Gly                    20     - #             25     - #             30                   - - Val Asp Trp Val Phe Val Asp His Ser Ser Ty - #r Arg Arg Pro Gly Thr                35         - #         40         - #         45                       - - Pro Tyr Gly Asp Ile Tyr Gly Ala Phe Gly As - #p Asn Gln Phe Arg Phe            50             - #     55             - #     60                           - - Thr Leu Leu Ser His Ala Ala Cys Glu Ala Pr - #o Leu Val Leu Pro Leu        65                 - # 70                 - # 75                 - # 80        - - Gly Gly Phe Thr Tyr Gly Glu Lys Cys Leu Ph - #e Leu Ala Asn Asp Cys                        85 - #                 90 - #                 95               - - Asn Ala Ala Leu Val Pro Leu Leu Leu Ala Al - #a Lys Tyr Arg Pro Tyr                   100      - #           105      - #           110                   - - Gly Val Tyr Lys Asp Ala Arg Ser Ile Val Al - #a Ile His Asn Ile Ala               115          - #       120          - #       125                       - - His Gln Gly Val Glu Pro Ala Val Thr Tyr As - #n Asn Leu Gly Leu Pro           130              - #   135              - #   140                           - - Pro Gln Trp Tyr Gly Ala Val Glu Trp Ile Ph - #e Pro Thr Trp Ala Arg       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Ala His Ala Leu Asp Thr Gly Glu Thr Val As - #n Val Leu Lys Gly         Ala                                                                                              165  - #               170  - #               175              - - Ile Ala Val Ala Asp Arg Ile Leu Thr Val Se - #r Gln Gly Tyr Ser Trp                   180      - #           185      - #           190                   - - Glu Ile Thr Thr Pro Glu Gly Gly Tyr Gly Le - #u His Glu Leu Leu Ser               195          - #       200          - #       205                       - - Ser Arg Gln Ser Val Leu Asn Gly Ile Thr As - #n Gly Ile Asp Val Asn           210              - #   215              - #   220                           - - Asp Trp Asn Pro Ser Thr Asp Glu His Ile Al - #a Ser His Tyr Ser Ile       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Asn Asp Leu Ser Pro Pro Gly Lys Val Gln Cy - #s Lys Thr Asp Leu         Gln                                                                                              245  - #               250  - #               255              - - Lys Glu Leu Gly Leu Pro Ile Arg Pro Asp Cy - #s Pro Leu Ile Gly Phe                   260      - #           265      - #           270                   - - Ile Gly Arg Leu Asp Tyr Gln Lys Gly Val As - #p Ile Ile Leu Ser Ala               275          - #       280          - #       285                       - - Ile Pro Glu Leu Met Gln Asn Asp Val Gln Va - #l Val Met Leu Gly Ser           290              - #   295              - #   300                           - - Gly Glu Lys Gln Tyr Glu Asp Trp Met Arg Hi - #s Thr Glu Asn Leu Phe       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Lys Asp Lys Phe Arg Ala Trp Val Gly Phe As - #n Val Pro Val Ser         His                                                                                              325  - #               330  - #               335              - - Arg Ile Thr Ala Gly Cys Asp Ile Leu Leu Me - #t Pro Ser Arg Phe Glu                   340      - #           345      - #           350                   - - Pro Cys Gly Leu Asn Gln Leu Tyr Ala Met Ar - #g Tyr Gly Thr Ile Pro               355          - #       360          - #       365                       - - Ile Val His Ser Thr Gly Gly Leu Arg Asp Th - #r Val Lys Asp Phe Asn           370              - #   375              - #   380                           - - Pro Tyr Ala Gln Glu Gly Lys Gly Glu Gly Th - #r Gly Trp Thr Phe Ser       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Pro Leu Thr Ser Glu Lys Leu Phe Asp Thr Le - #u Lys Leu Ala Ile         Arg                                                                                              405  - #               410  - #               415              - - Thr Tyr Thr Glu His Lys Ser Ser Trp Glu Gl - #y Leu Met Lys Arg Gly                   420      - #           425      - #           430                   - - Met Gly Arg Asp Tyr Ser Trp Glu Asn Ala Al - #a Ile Gln Tyr Glu Gln               435          - #       440          - #       445                       - - Val Phe Thr Trp Ala Phe Ile Asp Pro Pro Ty - #r                               450              - #   455                                                  - -  - - (2) INFORMATION FOR SEQ ID NO: 5:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 1926 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: unknown                                                      (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA to mRNA                                       - -    (iii) HYPOTHETICAL: NO                                                  - -     (iv) ANTI-SENSE: NO                                                    - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv. Berolin - #a                                                   (F) TISSUE TYPE: tuber - #tissue                                      - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in pBluescriptSK+                        - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:2..1675                                                           (D) OTHER INFORMATION:/fun - #ction= "Polymerization of                             starch"                                                                        /product=- # "Starch synthase"                                   - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #5:                            - - C GGC ACG AGC AAA AGT TTA GTA GAT GTT CCT - #GGA AAG AAG ATC CAG              46                                                                           Gly Thr Ser Lys Ser Leu Val Asp Val P - #ro Gly Lys Lys Ile Gln                  1              - # 5                 - # 10                 - # 15          - - TCT TAT ATG CCT TCA TTA CGT AAA GAA TCC TC - #A GCA TCC CAT GTG GAA            94                                                                        Ser Tyr Met Pro Ser Leu Arg Lys Glu Ser Se - #r Ala Ser His Val Glu                             20 - #                 25 - #                 30               - - CAG AGG AAT GAA AAT CTT GAA GGA TCA AGT GC - #T GAG GCA AAC GAA GAG           142                                                                        Gln Arg Asn Glu Asn Leu Glu Gly Ser Ser Al - #a Glu Ala Asn Glu Glu                         35     - #             40     - #             45                   - - ACT GAA GAT CCT GTG AAT ATA GAT GAG AAA CC - #C CCT CCA TTG GCA GGA           190                                                                        Thr Glu Asp Pro Val Asn Ile Asp Glu Lys Pr - #o Pro Pro Leu Ala Gly                     50         - #         55         - #         60                       - - ACA AAT GTT ATG AAC ATT ATT TTG GTG GCT TC - #A GAA TGC GCT CCA TGG           238                                                                        Thr Asn Val Met Asn Ile Ile Leu Val Ala Se - #r Glu Cys Ala Pro Trp                 65             - #     70             - #     75                           - - TCT AAA ACA GGT GGG CTT GGA GAT GTT GCT GG - #A GCA TTA CCC AAA GCT           286                                                                        Ser Lys Thr Gly Gly Leu Gly Asp Val Ala Gl - #y Ala Leu Pro Lys Ala             80                 - # 85                 - # 90                 - # 95        - - TTG GCT CGA CGT GGC CAC AGA GTT ATG GTT GT - #G GCA CCT CGT TAT GAC           334                                                                        Leu Ala Arg Arg Gly His Arg Val Met Val Va - #l Ala Pro Arg Tyr Asp                            100  - #               105  - #               110               - - AAC TAT CCT GAA CCT CAA GAT TCT GGT GTA AG - #A AAA ATT TAT AAA GTT           382                                                                        Asn Tyr Pro Glu Pro Gln Asp Ser Gly Val Ar - #g Lys Ile Tyr Lys Val                        115      - #           120      - #           125                   - - GAT GGT CAG GAT GTG GAA GTG ACT TAC TTC CA - #A GCT TTT ATT GAT GGT           430                                                                        Asp Gly Gln Asp Val Glu Val Thr Tyr Phe Gl - #n Ala Phe Ile Asp Gly                    130          - #       135          - #       140                       - - GTG GAT TTT GTT TTC ATT GAC AGT CAT ATG TT - #T AGA CAC ATT GGG AAC           478                                                                        Val Asp Phe Val Phe Ile Asp Ser His Met Ph - #e Arg His Ile Gly Asn                145              - #   150              - #   155                           - - AAC ATT TAC GGA GGG AAC CGT GTG GAT ATT TT - #A AAA CGC ATG GTT TTA           526                                                                        Asn Ile Tyr Gly Gly Asn Arg Val Asp Ile Le - #u Lys Arg Met Val Leu            160                 1 - #65                 1 - #70                 1 -       #75                                                                               - - TTT TGC AAA GCA GCG ATT GAG GTT CCT TGG CA - #T GTT CCA TGT GGT         GGG      574                                                                     Phe Cys Lys Ala Ala Ile Glu Val Pro Trp Hi - #s Val Pro Cys Gly Gly                           180  - #               185  - #               190               - - GTC TGC TAT GGA GAT GGA AAT TTA GTG TTC AT - #T GCT AAT GAT TGG CAT           622                                                                        Val Cys Tyr Gly Asp Gly Asn Leu Val Phe Il - #e Ala Asn Asp Trp His                        195      - #           200      - #           205                   - - ACT GCT TTA TTG CCA GTA TAT CTG AAA GCT TA - #T TAT CGT GAC AAT GGA           670                                                                        Thr Ala Leu Leu Pro Val Tyr Leu Lys Ala Ty - #r Tyr Arg Asp Asn Gly                    210          - #       215          - #       220                       - - ATT ATG AAC TAT ACA AGA TCT GTC CTG GTG AT - #T CAT AAC ATC GCT CAT           718                                                                        Ile Met Asn Tyr Thr Arg Ser Val Leu Val Il - #e His Asn Ile Ala His                225              - #   230              - #   235                           - - CAG GGT CGT GGT CCT TTG GAG GAT TTT TCA TA - #T GTA GAT CTT CCA CCA           766                                                                        Gln Gly Arg Gly Pro Leu Glu Asp Phe Ser Ty - #r Val Asp Leu Pro Pro            240                 2 - #45                 2 - #50                 2 -       #55                                                                               - - CAC TAT ATG GAC CCT TTC AAG TTG TAT GAC CC - #A GTA GGA GGT GAG         CAT      814                                                                     His Tyr Met Asp Pro Phe Lys Leu Tyr Asp Pr - #o Val Gly Gly Glu His                           260  - #               265  - #               270               - - TTC AAC ATT TTT GCG GCT GGT CTA AAG ACA GC - #A GAT CGT GTA GTT ACA           862                                                                        Phe Asn Ile Phe Ala Ala Gly Leu Lys Thr Al - #a Asp Arg Val Val Thr                        275      - #           280      - #           285                   - - GTT AGT CAT GGA TAT TCA TGG GAA CTA AAG AC - #T TCC CAA GGT GGT TGG           910                                                                        Val Ser His Gly Tyr Ser Trp Glu Leu Lys Th - #r Ser Gln Gly Gly Trp                    290          - #       295          - #       300                       - - GGA TTG CAT CAG ATA ATT AAT GAG AAC GAT TG - #G AAA TTA CAG GGT ATT           958                                                                        Gly Leu His Gln Ile Ile Asn Glu Asn Asp Tr - #p Lys Leu Gln Gly Ile                305              - #   310              - #   315                           - - GTG AAT GGG ATT GAT ACA AAA GAG TGG AAC CC - #T GAG TTG GAC GTT CAC          1006                                                                        Val Asn Gly Ile Asp Thr Lys Glu Trp Asn Pr - #o Glu Leu Asp Val His            320                 3 - #25                 3 - #30                 3 -       #35                                                                               - - TTA CAG TCA GAT GGT TAC ATG AAC TAC TCC TT - #G GAC ACG CTA CAG         ACT     1054                                                                     Leu Gln Ser Asp Gly Tyr Met Asn Tyr Ser Le - #u Asp Thr Leu Gln Thr                           340  - #               345  - #               350               - - GGC AAG CCT CAA TGT AAA GCT GCA TTG CAG AA - #G GAA CTT GGT TTA CCA          1102                                                                        Gly Lys Pro Gln Cys Lys Ala Ala Leu Gln Ly - #s Glu Leu Gly Leu Pro                        355      - #           360      - #           365                   - - GTT CGT GAT GAT GTC CCA CTG ATC GGT TTC AT - #T GGG AGG CTT GAC CCA          1150                                                                        Val Arg Asp Asp Val Pro Leu Ile Gly Phe Il - #e Gly Arg Leu Asp Pro                    370          - #       375          - #       380                       - - CAA AAG GGT GTT GAT CTG ATT GCT GAG GCC AG - #T GCT TGG ATG ATG GGT          1198                                                                        Gln Lys Gly Val Asp Leu Ile Ala Glu Ala Se - #r Ala Trp Met Met Gly                385              - #   390              - #   395                           - - CAG GAT GTA CAA CTG GTC ATG TTG GGG ACG GG - #G AGG CGT GAC CTT GAA          1246                                                                        Gln Asp Val Gln Leu Val Met Leu Gly Thr Gl - #y Arg Arg Asp Leu Glu            400                 4 - #05                 4 - #10                 4 -       #15                                                                               - - CAG ATG CTA AGG CAA TTT GAG TGT CAA CAC AA - #T GAT AAA ATT AGA         GGA     1294                                                                     Gln Met Leu Arg Gln Phe Glu Cys Gln His As - #n Asp Lys Ile Arg Gly                           420  - #               425  - #               430               - - TGG GTT GGT TTC TCT GTG AAG ACT TCT CAT CG - #T ATA ACT GCT GGT GCA          1342                                                                        Trp Val Gly Phe Ser Val Lys Thr Ser His Ar - #g Ile Thr Ala Gly Ala                        435      - #           440      - #           445                   - - GAC ATT CTG CTC ATG CCT TCT AGA TTT GAG GC - #C TTG CGA CTG AAC CAG          1390                                                                        Asp Ile Leu Leu Met Pro Ser Arg Phe Glu Al - #a Leu Arg Leu Asn Gln                    450          - #       455          - #       460                       - - CTT TAT GCA ATG AAA TAT GGG ACT ATT CCT GT - #T GTT CAT GCA GTA GGA          1438                                                                        Leu Tyr Ala Met Lys Tyr Gly Thr Ile Pro Va - #l Val His Ala Val Gly                465              - #   470              - #   475                           - - GGA CTC AGA GAT ACT GTG CAG CCC TTT GAT CC - #T TTT AAT GAG TCA GGA          1486                                                                        Gly Leu Arg Asp Thr Val Gln Pro Phe Asp Pr - #o Phe Asn Glu Ser Gly            480                 4 - #85                 4 - #90                 4 -       #95                                                                               - - CTG GGG TGG ACC TTC AGT AGG GCT GAA GCT AG - #C CAG CTG ATC CAC         GCA     1534                                                                     Leu Gly Trp Thr Phe Ser Arg Ala Glu Ala Se - #r Gln Leu Ile His Ala                           500  - #               505  - #               510               - - TTA GGA AAT TGC TTA CTG ACT TAT CGT GAG TA - #C AAA AAG AGT TGG GAG          1582                                                                        Leu Gly Asn Cys Leu Leu Thr Tyr Arg Glu Ty - #r Lys Lys Ser Trp Glu                        515      - #           520      - #           525                   - - GGG ATT CAG ACA CGT TGT ATG ACA CAA GAC TT - #A AGT TGG GAT AAT GCT          1630                                                                        Gly Ile Gln Thr Arg Cys Met Thr Gln Asp Le - #u Ser Trp Asp Asn Ala                    530          - #       535          - #       540                       - - GCT CAG AAC TAT GAA GAA GTT CTC ATC GCT GC - #T AAG TAT CAG TGG              1675                                                                        Ala Gln Asn Tyr Glu Glu Val Leu Ile Ala Al - #a Lys Tyr Gln Trp                    545              - #   550              - #   555                           - - TGAGGTTCAT TACTTGTAGA TATTTGGGGA TTTTGGCCAT TGTATCAAGT TC -              #TAATGATG   1735                                                                  - - GGATTTCAGA GACATGTTTC TGGTATCGAC ACGAGAGGAT GCATGCAACA AG -             #TTGGCTAA   1795                                                                  - - CTATCATACT ACTACCACGT CAGGAATGAT TGCCGCACTT GATCATGTAA TC -             #ATGTATAT   1855                                                                  - - ACTCTATTTT GTTTGCAAAA TGTAGTTACA TGTTGCAATT TCTAAAAAAA AA -             #AAAAAAAA   1915                                                                  - - AAAAAAAAAA A               - #                  - #                       - #     1926                                                                   - -  - - (2) INFORMATION FOR SEQ ID NO: 6:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 558 amino - #acids                                                 (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #6:                            - - Gly Thr Ser Lys Ser Leu Val Asp Val Pro Gl - #y Lys Lys Ile Gln Ser         1               5 - #                 10 - #                 15               - - Tyr Met Pro Ser Leu Arg Lys Glu Ser Ser Al - #a Ser His Val Glu Gln                    20     - #             25     - #             30                   - - Arg Asn Glu Asn Leu Glu Gly Ser Ser Ala Gl - #u Ala Asn Glu Glu Thr                35         - #         40         - #         45                       - - Glu Asp Pro Val Asn Ile Asp Glu Lys Pro Pr - #o Pro Leu Ala Gly Thr            50             - #     55             - #     60                           - - Asn Val Met Asn Ile Ile Leu Val Ala Ser Gl - #u Cys Ala Pro Trp Ser        65                 - # 70                 - # 75                 - # 80        - - Lys Thr Gly Gly Leu Gly Asp Val Ala Gly Al - #a Leu Pro Lys Ala Leu                        85 - #                 90 - #                 95               - - Ala Arg Arg Gly His Arg Val Met Val Val Al - #a Pro Arg Tyr Asp Asn                   100      - #           105      - #           110                   - - Tyr Pro Glu Pro Gln Asp Ser Gly Val Arg Ly - #s Ile Tyr Lys Val Asp               115          - #       120          - #       125                       - - Gly Gln Asp Val Glu Val Thr Tyr Phe Gln Al - #a Phe Ile Asp Gly Val           130              - #   135              - #   140                           - - Asp Phe Val Phe Ile Asp Ser His Met Phe Ar - #g His Ile Gly Asn Asn       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Ile Tyr Gly Gly Asn Arg Val Asp Ile Leu Ly - #s Arg Met Val Leu         Phe                                                                                              165  - #               170  - #               175              - - Cys Lys Ala Ala Ile Glu Val Pro Trp His Va - #l Pro Cys Gly Gly Val                   180      - #           185      - #           190                   - - Cys Tyr Gly Asp Gly Asn Leu Val Phe Ile Al - #a Asn Asp Trp His Thr               195          - #       200          - #       205                       - - Ala Leu Leu Pro Val Tyr Leu Lys Ala Tyr Ty - #r Arg Asp Asn Gly Ile           210              - #   215              - #   220                           - - Met Asn Tyr Thr Arg Ser Val Leu Val Ile Hi - #s Asn Ile Ala His Gln       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Gly Arg Gly Pro Leu Glu Asp Phe Ser Tyr Va - #l Asp Leu Pro Pro         His                                                                                              245  - #               250  - #               255              - - Tyr Met Asp Pro Phe Lys Leu Tyr Asp Pro Va - #l Gly Gly Glu His Phe                   260      - #           265      - #           270                   - - Asn Ile Phe Ala Ala Gly Leu Lys Thr Ala As - #p Arg Val Val Thr Val               275          - #       280          - #       285                       - - Ser His Gly Tyr Ser Trp Glu Leu Lys Thr Se - #r Gln Gly Gly Trp Gly           290              - #   295              - #   300                           - - Leu His Gln Ile Ile Asn Glu Asn Asp Trp Ly - #s Leu Gln Gly Ile Val       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Asn Gly Ile Asp Thr Lys Glu Trp Asn Pro Gl - #u Leu Asp Val His         Leu                                                                                              325  - #               330  - #               335              - - Gln Ser Asp Gly Tyr Met Asn Tyr Ser Leu As - #p Thr Leu Gln Thr Gly                   340      - #           345      - #           350                   - - Lys Pro Gln Cys Lys Ala Ala Leu Gln Lys Gl - #u Leu Gly Leu Pro Val               355          - #       360          - #       365                       - - Arg Asp Asp Val Pro Leu Ile Gly Phe Ile Gl - #y Arg Leu Asp Pro Gln           370              - #   375              - #   380                           - - Lys Gly Val Asp Leu Ile Ala Glu Ala Ser Al - #a Trp Met Met Gly Gln       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Asp Val Gln Leu Val Met Leu Gly Thr Gly Ar - #g Arg Asp Leu Glu         Gln                                                                                              405  - #               410  - #               415              - - Met Leu Arg Gln Phe Glu Cys Gln His Asn As - #p Lys Ile Arg Gly Trp                   420      - #           425      - #           430                   - - Val Gly Phe Ser Val Lys Thr Ser His Arg Il - #e Thr Ala Gly Ala Asp               435          - #       440          - #       445                       - - Ile Leu Leu Met Pro Ser Arg Phe Glu Ala Le - #u Arg Leu Asn Gln Leu           450              - #   455              - #   460                           - - Tyr Ala Met Lys Tyr Gly Thr Ile Pro Val Va - #l His Ala Val Gly Gly       465                 4 - #70                 4 - #75                 4 -       #80                                                                               - - Leu Arg Asp Thr Val Gln Pro Phe Asp Pro Ph - #e Asn Glu Ser Gly         Leu                                                                                              485  - #               490  - #               495              - - Gly Trp Thr Phe Ser Arg Ala Glu Ala Ser Gl - #n Leu Ile His Ala Leu                   500      - #           505      - #           510                   - - Gly Asn Cys Leu Leu Thr Tyr Arg Glu Tyr Ly - #s Lys Ser Trp Glu Gly               515          - #       520          - #       525                       - - Ile Gln Thr Arg Cys Met Thr Gln Asp Leu Se - #r Trp Asp Asn Ala Ala           530              - #   535              - #   540                           - - Gln Asn Tyr Glu Glu Val Leu Ile Ala Ala Ly - #s Tyr Gln Trp               545                 5 - #50                 5 - #55                             - -  - - (2) INFORMATION FOR SEQ ID NO: 7:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 2793 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: single                                                       (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA to mRNA                                       - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv Dsire                                                           (F) TISSUE TYPE: leaf - #tissue                                       - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in Lambda ZAPII                          - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:242..2542                                                - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #7:                            - - CCGCCCATTT TTCACCAAAC GTTTTTGACA TTGACCTCCA TTGTCGTTAC TT -              #CTTGGTTT     60                                                                  - - CTCTTTCAAT ATTGCTTCAC AATCCCTAAT TCTCTGTACT AGTCTCTATC TC -             #AATTGGGT    120                                                                  - - TTTCTTTACT TGTCAATTAT CTCTACTGGG TCGGCTTCTA TTTCCACTAG GT -             #CACTCTGG    180                                                                  - - TTCTTGAAAT CTTGGATTCC TATTATCCCT GTGAACTTCA TCTTTTGTGA TT -             #TCTACTGT    240                                                                  - - A ATG GAG AAT TCC ATT CTT CTT CAT AGT GGA - #AAT CAG TTC CAC CCC             286                                                                          Met Glu Asn Ser Ile Leu Leu His Ser G - #ly Asn Gln Phe His Pro                  1              - # 5                 - # 10              15                 - - AAC TTA CCC CTT TTA GCA CTT AGG CCC AAA AA - #A TTA TCT CTA ATT CAT           334                                                                        Asn Leu Pro Leu Leu Ala Leu Arg Pro Lys Ly - #s Leu Ser Leu Ile His                             20 - #                 25 - #                 30               - - GGC TCC AGT AGA GAG CAA ATG TGG AGG ATC AA - #G CGC GTT AAA GCA ACA           382                                                                        Gly Ser Ser Arg Glu Gln Met Trp Arg Ile Ly - #s Arg Val Lys Ala Thr                         35     - #             40     - #             45                   - - GGT GAA AAT TCT GGG GAA GCT GCA AGT GCT GA - #T GAA TCG AAT GAT GCC           430                                                                        Gly Glu Asn Ser Gly Glu Ala Ala Ser Ala As - #p Glu Ser Asn Asp Ala                     50         - #         55         - #         60                       - - TTA CAG GTT ACA ATT GAA AAG AGC AAA AAG GT - #T TTA GCC ATG CAA CAG           478                                                                        Leu Gln Val Thr Ile Glu Lys Ser Lys Lys Va - #l Leu Ala Met Gln Gln                 65             - #     70             - #     75                           - - GAC CTA CTT CAA CAG ATT GCA GAA AGA AGA AA - #A GTA GTC TCT TCA ATA           526                                                                        Asp Leu Leu Gln Gln Ile Ala Glu Arg Arg Ly - #s Val Val Ser Ser Ile             80                 - # 85                 - # 90                 - # 95        - - AAA AGC AGT CTT GCC AAT GCC AAA GGT ACT TA - #T GAT GGT GGG AGT GGT           574                                                                        Lys Ser Ser Leu Ala Asn Ala Lys Gly Thr Ty - #r Asp Gly Gly Ser Gly                            100  - #               105  - #               110               - - AGC TTA TCA GAT GTT GAT ATC CCT GAC GTG GA - #T AAA GAT TAT AAT GTT           622                                                                        Ser Leu Ser Asp Val Asp Ile Pro Asp Val As - #p Lys Asp Tyr Asn Val                        115      - #           120      - #           125                   - - ACT GTA CCT AGT ACT GCT GCT ACT CCA ATT AC - #T GAT GTC GAT AAA AAT           670                                                                        Thr Val Pro Ser Thr Ala Ala Thr Pro Ile Th - #r Asp Val Asp Lys Asn                    130          - #       135          - #       140                       - - ACA CCG CCT GCT ATA AGC CAA GAT TTT GTT GA - #A AGT AAA AGA GAA ATC           718                                                                        Thr Pro Pro Ala Ile Ser Gln Asp Phe Val Gl - #u Ser Lys Arg Glu Ile                145              - #   150              - #   155                           - - AAA AGG GAC CTG GCC GAT GAA AGG GCA CCC CC - #A CTG TCG AGA TCA TCT           766                                                                        Lys Arg Asp Leu Ala Asp Glu Arg Ala Pro Pr - #o Leu Ser Arg Ser Ser            160                 1 - #65                 1 - #70                 1 -       #75                                                                               - - ATC ACA GCC AGT AGC CAG ATT TCC TCT ACT GT - #A AGT TCC AAA AGA         ACG      814                                                                     Ile Thr Ala Ser Ser Gln Ile Ser Ser Thr Va - #l Ser Ser Lys Arg Thr                           180  - #               185  - #               190               - - TTG AAT GTC CCT CCA GAA ACT CCG AAG TCC AG - #T CAA GAG ACA CTT TTG           862                                                                        Leu Asn Val Pro Pro Glu Thr Pro Lys Ser Se - #r Gln Glu Thr Leu Leu                        195      - #           200      - #           205                   - - GAT GTG AAT TCA CGC AAA AGT TTA GTA GAT GT - #T CCT GGA AAG AAG ATC           910                                                                        Asp Val Asn Ser Arg Lys Ser Leu Val Asp Va - #l Pro Gly Lys Lys Ile                    210          - #       215          - #       220                       - - CAG TCT TAT ATG CCT TCA TTA CGT AAA GAA TC - #C TCA GCA TCC CAT GTG           958                                                                        Gln Ser Tyr Met Pro Ser Leu Arg Lys Glu Se - #r Ser Ala Ser His Val                225              - #   230              - #   235                           - - GAA CAG AGG AAT GAA AAT CTT GAA GGA TCA AG - #T GCT GAG GCA AAC GAA          1006                                                                        Glu Gln Arg Asn Glu Asn Leu Glu Gly Ser Se - #r Ala Glu Ala Asn Glu            240                 2 - #45                 2 - #50                 2 -       #55                                                                               - - GAG ACT GAA GAT CCT GTG AAT ATA GAT GAG AA - #A CCC CCT CCA TTG         GCA     1054                                                                     Glu Thr Glu Asp Pro Val Asn Ile Asp Glu Ly - #s Pro Pro Pro Leu Ala                           260  - #               265  - #               270               - - GGA ACA AAT GTT ATG AAC ATT ATT TTG GTG GC - #T TCA GAA TGC GCT CCA          1102                                                                        Gly Thr Asn Val Met Asn Ile Ile Leu Val Al - #a Ser Glu Cys Ala Pro                        275      - #           280      - #           285                   - - TGG TCT AAA ACA GGT GGG CTT GGA GAT GTT GC - #T GGA GCA TTA CCC AAA          1150                                                                        Trp Ser Lys Thr Gly Gly Leu Gly Asp Val Al - #a Gly Ala Leu Pro Lys                    290          - #       295          - #       300                       - - GCT TTG GCT CGA CGT GGC CAC AGA GTT ATG GT - #T GTG GCA CCT CGT TAT          1198                                                                        Ala Leu Ala Arg Arg Gly His Arg Val Met Va - #l Val Ala Pro Arg Tyr                305              - #   310              - #   315                           - - GAC AAC TAT CCT GAA CCT CAA GAT TCT GGT GT - #A AGA AAA ATT TAT AAA          1246                                                                        Asp Asn Tyr Pro Glu Pro Gln Asp Ser Gly Va - #l Arg Lys Ile Tyr Lys            320                 3 - #25                 3 - #30                 3 -       #35                                                                               - - GTT GAT GGT CAG GAT GTG GAA GTG ACT TAC TT - #C CAA GCT TTT ATT         GAT     1294                                                                     Val Asp Gly Gln Asp Val Glu Val Thr Tyr Ph - #e Gln Ala Phe Ile Asp                           340  - #               345  - #               350               - - GGT GTG GAT TTT GTT TTC ATT GAC AGT CAT AT - #G TTT AGA CAC ATT GGG          1342                                                                        Gly Val Asp Phe Val Phe Ile Asp Ser His Me - #t Phe Arg His Ile Gly                        355      - #           360      - #           365                   - - AAC AAC ATT TAC GGA GGG AAC CGT GTG GAT AT - #T TTA AAA CGC ATG GTT          1390                                                                        Asn Asn Ile Tyr Gly Gly Asn Arg Val Asp Il - #e Leu Lys Arg Met Val                    370          - #       375          - #       380                       - - TTA TTT TGC AAA GCA GCG ATT GAG GTT CCT TG - #G CAT GTT CCA TGT GGT          1438                                                                        Leu Phe Cys Lys Ala Ala Ile Glu Val Pro Tr - #p His Val Pro Cys Gly                385              - #   390              - #   395                           - - GGG GTC TGC TAT GGA GAT GGA AAT TTA GTG TT - #C ATT GCT AAT GAT TGG          1486                                                                        Gly Val Cys Tyr Gly Asp Gly Asn Leu Val Ph - #e Ile Ala Asn Asp Trp            400                 4 - #05                 4 - #10                 4 -       #15                                                                               - - CAT ACT GCT TTA TTG CCA GTA TAT CTG AAA GC - #T TAT TAT CGT GAC         AAT     1534                                                                     His Thr Ala Leu Leu Pro Val Tyr Leu Lys Al - #a Tyr Tyr Arg Asp Asn                           420  - #               425  - #               430               - - GGA ATT ATG AAC TAT ACA AGA TCT GTC CTG GT - #G ATT CAT AAC ATC GCT          1582                                                                        Gly Ile Met Asn Tyr Thr Arg Ser Val Leu Va - #l Ile His Asn Ile Ala                        435      - #           440      - #           445                   - - CAT CAG GGT CGT GGT CCT TTG GAG GAT TTT TC - #A TAT GTA GAT CTT CCA          1630                                                                        His Gln Gly Arg Gly Pro Leu Glu Asp Phe Se - #r Tyr Val Asp Leu Pro                    450          - #       455          - #       460                       - - CCA CAC TAT ATG GAC CCT TTC AAG TTG TAT GA - #C CCA GTA GGA GGT GAG          1678                                                                        Pro His Tyr Met Asp Pro Phe Lys Leu Tyr As - #p Pro Val Gly Gly Glu                465              - #   470              - #   475                           - - CAT TTC AAC ATT TTT GCG GCT GGT CTA AAG AC - #A GCA GAT CGT GTA GTT          1726                                                                        His Phe Asn Ile Phe Ala Ala Gly Leu Lys Th - #r Ala Asp Arg Val Val            480                 4 - #85                 4 - #90                 4 -       #95                                                                               - - ACA GTT AGT CAT GGA TAT TCA TGG GAA CTA AA - #G ACT TCC CAA GGT         GGT     1774                                                                     Thr Val Ser His Gly Tyr Ser Trp Glu Leu Ly - #s Thr Ser Gln Gly Gly                           500  - #               505  - #               510               - - TGG GGA TTG CAT CAG ATA ATT AAT GAG AAC GA - #T TGG AAA TTA CAG GGT          1822                                                                        Trp Gly Leu His Gln Ile Ile Asn Glu Asn As - #p Trp Lys Leu Gln Gly                        515      - #           520      - #           525                   - - ATT GTG AAT GGG ATT GAT ACA AAA GAG TGG AA - #C CCT GAG TTG GAC GTT          1870                                                                        Ile Val Asn Gly Ile Asp Thr Lys Glu Trp As - #n Pro Glu Leu Asp Val                    530          - #       535          - #       540                       - - CAC TTA CAG TCA GAT GGT TAC ATG AAC TAC TC - #C TTG GAC ACG CTA CAG          1918                                                                        His Leu Gln Ser Asp Gly Tyr Met Asn Tyr Se - #r Leu Asp Thr Leu Gln                545              - #   550              - #   555                           - - ACT GGC AAG CCT CAA TGT AAA GCT GCA TTG CA - #G AAG GAA CTT GGT TTA          1966                                                                        Thr Gly Lys Pro Gln Cys Lys Ala Ala Leu Gl - #n Lys Glu Leu Gly Leu            560                 5 - #65                 5 - #70                 5 -       #75                                                                               - - CCA GTT CGT GAT GAT GTC CCA CTG ATC GGT TT - #C ATT GGG AGG CTT         GAC     2014                                                                     Pro Val Arg Asp Asp Val Pro Leu Ile Gly Ph - #e Ile Gly Arg Leu Asp                           580  - #               585  - #               590               - - CCA CAA AAG GGT GTT GAT CTG ATT GCT GAG GC - #C AGT GCT TGG ATG ATG          2062                                                                        Pro Gln Lys Gly Val Asp Leu Ile Ala Glu Al - #a Ser Ala Trp Met Met                        595      - #           600      - #           605                   - - GGT CAG GAT GTA CAA CTG GTC ATG TTG GGG AC - #G GGG AGG CGT GAC CTT          2110                                                                        Gly Gln Asp Val Gln Leu Val Met Leu Gly Th - #r Gly Arg Arg Asp Leu                    610          - #       615          - #       620                       - - GAA CAG ATG CTA AGG CAA TTT GAG TGT CAA CA - #C AAT GAT AAA ATT AGA          2158                                                                        Glu Gln Met Leu Arg Gln Phe Glu Cys Gln Hi - #s Asn Asp Lys Ile Arg                625              - #   630              - #   635                           - - GGA TGG GTT GGT TTC TCT GTG AAG ACT TCT CA - #T CGT ATA ACT GCT GGT          2206                                                                        Gly Trp Val Gly Phe Ser Val Lys Thr Ser Hi - #s Arg Ile Thr Ala Gly            640                 6 - #45                 6 - #50                 6 -       #55                                                                               - - GCA GAC ATT CTG CTC ATG CCT TCT AGA TTT GA - #G CCT TGC GGA CTG         AAC     2254                                                                     Ala Asp Ile Leu Leu Met Pro Ser Arg Phe Gl - #u Pro Cys Gly Leu Asn                           660  - #               665  - #               670               - - CAG CTT TAT GCA ATG AAA TAT GGG ACT ATT CC - #T GTT GTT CAT GCA GTA          2302                                                                        Gln Leu Tyr Ala Met Lys Tyr Gly Thr Ile Pr - #o Val Val His Ala Val                        675      - #           680      - #           685                   - - GGA GGA CTC AGA GAT ACT GTG CAG CCC TTT GA - #T CCT TTT AAT GAG TCA          2350                                                                        Gly Gly Leu Arg Asp Thr Val Gln Pro Phe As - #p Pro Phe Asn Glu Ser                    690          - #       695          - #       700                       - - GGA CTG GGG TGG ACC TTC AGT AGG GCT GAA GC - #T AGC CAG CTG ATC CAC          2398                                                                        Gly Leu Gly Trp Thr Phe Ser Arg Ala Glu Al - #a Ser Gln Leu Ile His                705              - #   710              - #   715                           - - GCA TTA GGA AAT TGC TTA CTG ACT TAT CGT GA - #G TAC AAA AAG AGT TGG          2446                                                                        Ala Leu Gly Asn Cys Leu Leu Thr Tyr Arg Gl - #u Tyr Lys Lys Ser Trp            720                 7 - #25                 7 - #30                 7 -       #35                                                                               - - GAG GGG ATT CAG ACA CGT TGT ATG ACA CAA GA - #C TTA AGT TGG GAT         AAT     2494                                                                     Glu Gly Ile Gln Thr Arg Cys Met Thr Gln As - #p Leu Ser Trp Asp Asn                           740  - #               745  - #               750               - - GCT GCT CAG AAC TAT GAA GAA GTT CTC ATC GC - #T GCT AAG TAT CAG TGG          2542                                                                        Ala Ala Gln Asn Tyr Glu Glu Val Leu Ile Al - #a Ala Lys Tyr Gln Trp                        755      - #           760      - #           765                   - - TGAGGTTCAT TACTTGTAGA TATTTGGGGA TTTTGGCCAT TGTATCAAGT TC -              #TAATGATG   2602                                                                  - - GGATTTCAGA GACATGTTTC TGGTATCGAC ACGAGAGGAT GCATGCAACA AG -             #TTGGCTAA   2662                                                                  - - CTATCATACT ACTACCACGT CAGGAATGAT TGCCGCACTT GATCATGTAA TC -             #ATGTATAT   2722                                                                  - - ACTCTATTTT GTTTGCAAAA TGTAGTTACA TGTTGCAATT TCTAAAAAAA AA -             #AAAAAAAA   2782                                                                  - - AAAAAAAAAA A               - #                  - #                       - #     2793                                                                   - -  - - (2) INFORMATION FOR SEQ ID NO: 8:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 767 amino - #acids                                                 (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #8:                            - - Met Glu Asn Ser Ile Leu Leu His Ser Gly As - #n Gln Phe His Pro Asn         1               5 - #                 10 - #                 15               - - Leu Pro Leu Leu Ala Leu Arg Pro Lys Lys Le - #u Ser Leu Ile His Gly                    20     - #             25     - #             30                   - - Ser Ser Arg Glu Gln Met Trp Arg Ile Lys Ar - #g Val Lys Ala Thr Gly                35         - #         40         - #         45                       - - Glu Asn Ser Gly Glu Ala Ala Ser Ala Asp Gl - #u Ser Asn Asp Ala Leu            50             - #     55             - #     60                           - - Gln Val Thr Ile Glu Lys Ser Lys Lys Val Le - #u Ala Met Gln Gln Asp        65                 - # 70                 - # 75                 - # 80        - - Leu Leu Gln Gln Ile Ala Glu Arg Arg Lys Va - #l Val Ser Ser Ile Lys                        85 - #                 90 - #                 95               - - Ser Ser Leu Ala Asn Ala Lys Gly Thr Tyr As - #p Gly Gly Ser Gly Ser                   100      - #           105      - #           110                   - - Leu Ser Asp Val Asp Ile Pro Asp Val Asp Ly - #s Asp Tyr Asn Val Thr               115          - #       120          - #       125                       - - Val Pro Ser Thr Ala Ala Thr Pro Ile Thr As - #p Val Asp Lys Asn Thr           130              - #   135              - #   140                           - - Pro Pro Ala Ile Ser Gln Asp Phe Val Glu Se - #r Lys Arg Glu Ile Lys       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Arg Asp Leu Ala Asp Glu Arg Ala Pro Pro Le - #u Ser Arg Ser Ser         Ile                                                                                              165  - #               170  - #               175              - - Thr Ala Ser Ser Gln Ile Ser Ser Thr Val Se - #r Ser Lys Arg Thr Leu                   180      - #           185      - #           190                   - - Asn Val Pro Pro Glu Thr Pro Lys Ser Ser Gl - #n Glu Thr Leu Leu Asp               195          - #       200          - #       205                       - - Val Asn Ser Arg Lys Ser Leu Val Asp Val Pr - #o Gly Lys Lys Ile Gln           210              - #   215              - #   220                           - - Ser Tyr Met Pro Ser Leu Arg Lys Glu Ser Se - #r Ala Ser His Val Glu       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Gln Arg Asn Glu Asn Leu Glu Gly Ser Ser Al - #a Glu Ala Asn Glu         Glu                                                                                              245  - #               250  - #               255              - - Thr Glu Asp Pro Val Asn Ile Asp Glu Lys Pr - #o Pro Pro Leu Ala Gly                   260      - #           265      - #           270                   - - Thr Asn Val Met Asn Ile Ile Leu Val Ala Se - #r Glu Cys Ala Pro Trp               275          - #       280          - #       285                       - - Ser Lys Thr Gly Gly Leu Gly Asp Val Ala Gl - #y Ala Leu Pro Lys Ala           290              - #   295              - #   300                           - - Leu Ala Arg Arg Gly His Arg Val Met Val Va - #l Ala Pro Arg Tyr Asp       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Asn Tyr Pro Glu Pro Gln Asp Ser Gly Val Ar - #g Lys Ile Tyr Lys         Val                                                                                              325  - #               330  - #               335              - - Asp Gly Gln Asp Val Glu Val Thr Tyr Phe Gl - #n Ala Phe Ile Asp Gly                   340      - #           345      - #           350                   - - Val Asp Phe Val Phe Ile Asp Ser His Met Ph - #e Arg His Ile Gly Asn               355          - #       360          - #       365                       - - Asn Ile Tyr Gly Gly Asn Arg Val Asp Ile Le - #u Lys Arg Met Val Leu           370              - #   375              - #   380                           - - Phe Cys Lys Ala Ala Ile Glu Val Pro Trp Hi - #s Val Pro Cys Gly Gly       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Val Cys Tyr Gly Asp Gly Asn Leu Val Phe Il - #e Ala Asn Asp Trp         His                                                                                              405  - #               410  - #               415              - - Thr Ala Leu Leu Pro Val Tyr Leu Lys Ala Ty - #r Tyr Arg Asp Asn Gly                   420      - #           425      - #           430                   - - Ile Met Asn Tyr Thr Arg Ser Val Leu Val Il - #e His Asn Ile Ala His               435          - #       440          - #       445                       - - Gln Gly Arg Gly Pro Leu Glu Asp Phe Ser Ty - #r Val Asp Leu Pro Pro           450              - #   455              - #   460                           - - His Tyr Met Asp Pro Phe Lys Leu Tyr Asp Pr - #o Val Gly Gly Glu His       465                 4 - #70                 4 - #75                 4 -       #80                                                                               - - Phe Asn Ile Phe Ala Ala Gly Leu Lys Thr Al - #a Asp Arg Val Val         Thr                                                                                              485  - #               490  - #               495              - - Val Ser His Gly Tyr Ser Trp Glu Leu Lys Th - #r Ser Gln Gly Gly Trp                   500      - #           505      - #           510                   - - Gly Leu His Gln Ile Ile Asn Glu Asn Asp Tr - #p Lys Leu Gln Gly Ile               515          - #       520          - #       525                       - - Val Asn Gly Ile Asp Thr Lys Glu Trp Asn Pr - #o Glu Leu Asp Val His           530              - #   535              - #   540                           - - Leu Gln Ser Asp Gly Tyr Met Asn Tyr Ser Le - #u Asp Thr Leu Gln Thr       545                 5 - #50                 5 - #55                 5 -       #60                                                                               - - Gly Lys Pro Gln Cys Lys Ala Ala Leu Gln Ly - #s Glu Leu Gly Leu         Pro                                                                                              565  - #               570  - #               575              - - Val Arg Asp Asp Val Pro Leu Ile Gly Phe Il - #e Gly Arg Leu Asp Pro                   580      - #           585      - #           590                   - - Gln Lys Gly Val Asp Leu Ile Ala Glu Ala Se - #r Ala Trp Met Met Gly               595          - #       600          - #       605                       - - Gln Asp Val Gln Leu Val Met Leu Gly Thr Gl - #y Arg Arg Asp Leu Glu           610              - #   615              - #   620                           - - Gln Met Leu Arg Gln Phe Glu Cys Gln His As - #n Asp Lys Ile Arg Gly       625                 6 - #30                 6 - #35                 6 -       #40                                                                               - - Trp Val Gly Phe Ser Val Lys Thr Ser His Ar - #g Ile Thr Ala Gly         Ala                                                                                              645  - #               650  - #               655              - - Asp Ile Leu Leu Met Pro Ser Arg Phe Glu Pr - #o Cys Gly Leu Asn Gln                   660      - #           665      - #           670                   - - Leu Tyr Ala Met Lys Tyr Gly Thr Ile Pro Va - #l Val His Ala Val Gly               675          - #       680          - #       685                       - - Gly Leu Arg Asp Thr Val Gln Pro Phe Asp Pr - #o Phe Asn Glu Ser Gly           690              - #   695              - #   700                           - - Leu Gly Trp Thr Phe Ser Arg Ala Glu Ala Se - #r Gln Leu Ile His Ala       705                 7 - #10                 7 - #15                 7 -       #20                                                                               - - Leu Gly Asn Cys Leu Leu Thr Tyr Arg Glu Ty - #r Lys Lys Ser Trp         Glu                                                                                              725  - #               730  - #               735              - - Gly Ile Gln Thr Arg Cys Met Thr Gln Asp Le - #u Ser Trp Asp Asn Ala                   740      - #           745      - #           750                   - - Ala Gln Asn Tyr Glu Glu Val Leu Ile Ala Al - #a Lys Tyr Gln Trp                   755          - #       760          - #       765                       - -  - - (2) INFORMATION FOR SEQ ID NO: 9:                                     - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 2360 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: single                                                       (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA                                               - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv. Dsire                                                          (F) TISSUE TYPE: leaf - #tissue                                       - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in Lambda ZAPII                          - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:68..1990                                                 - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #9:                            - - AGATTTTCTA TATTGAAAGA TTTTGTCTTT ACATGATTCT TGATTTTACA GC -              #AGGTGTCA     60                                                                  - - ATACCAA ATG GGG TCT CTG CAA ACA CCC ACA AAT - #CTT AGC AAT AAG TCA           109                                                                                Met Gly Ser Leu Gln Thr - #Pro Thr Asn Leu Ser Asn Lys Ser                       1        - #       5           - #       10                           - - TGT TTA TGT GTG TCA GGG AGA GTT GTG AAG GG - #T TTG AGG GTA GAA AGA           157                                                                        Cys Leu Cys Val Ser Gly Arg Val Val Lys Gl - #y Leu Arg Val Glu Arg             15                 - # 20                 - # 25                 - # 30        - - CAA GTG GGG TTG GGG TTT TCT TGG TTG TTG AA - #G GGA CGA AGA AAC AGA           205                                                                        Gln Val Gly Leu Gly Phe Ser Trp Leu Leu Ly - #s Gly Arg Arg Asn Arg                             35 - #                 40 - #                 45               - - AAA GTT CAA TCT TTG TGT GTT ACA AGT AGT GT - #T TCA GAT GGT TCA TCA           253                                                                        Lys Val Gln Ser Leu Cys Val Thr Ser Ser Va - #l Ser Asp Gly Ser Ser                         50     - #             55     - #             60                   - - ATT GCT GAA AAT AAG AAT GTG TCA GAA GGG CT - #T CTT TTG GGT GCT GAG           301                                                                        Ile Ala Glu Asn Lys Asn Val Ser Glu Gly Le - #u Leu Leu Gly Ala Glu                     65         - #         70         - #         75                       - - AGA GAT GGT TCT GGC TCT GTT GTT GGT TTT CA - #A TTG ATT CCA CAT TCT           349                                                                        Arg Asp Gly Ser Gly Ser Val Val Gly Phe Gl - #n Leu Ile Pro His Ser                 80             - #     85             - #     90                           - - GTT GCA GGA GAT GCA ACA ATG GTA GAA TCT CA - #T GAT ATT GTA GCC AAT           397                                                                        Val Ala Gly Asp Ala Thr Met Val Glu Ser Hi - #s Asp Ile Val Ala Asn             95                 - #100                 - #105                 - #110        - - GAT AGA GAT GAC TTG AGT GAG GAT ACT GAG GA - #G ATG GAG GAA ACC CCA           445                                                                        Asp Arg Asp Asp Leu Ser Glu Asp Thr Glu Gl - #u Met Glu Glu Thr Pro                            115  - #               120  - #               125               - - ATC AAA TTA ACT TTC AAT ATC ATT TTT GTT AC - #T GCT GAA GCA GCT CCA           493                                                                        Ile Lys Leu Thr Phe Asn Ile Ile Phe Val Th - #r Ala Glu Ala Ala Pro                        130      - #           135      - #           140                   - - TAT TCT AAG ACT GGT GGA TTA GGA GAT GTT TG - #T GGT TCT TTG CCA ATG           541                                                                        Tyr Ser Lys Thr Gly Gly Leu Gly Asp Val Cy - #s Gly Ser Leu Pro Met                    145          - #       150          - #       155                       - - GCA CTA GCT GCT CGG GGT CAT CGT GTA ATG GT - #C GTT TCA CCT AGG TAT           589                                                                        Ala Leu Ala Ala Arg Gly His Arg Val Met Va - #l Val Ser Pro Arg Tyr                160              - #   165              - #   170                           - - TTG AAT GGA GGT CCT TCA GAT GAA AAG TAC GC - #C AAT GCT GTT GAC CTT           637                                                                        Leu Asn Gly Gly Pro Ser Asp Glu Lys Tyr Al - #a Asn Ala Val Asp Leu            175                 1 - #80                 1 - #85                 1 -       #90                                                                               - - GAT GTG CGG GCC ACT GTC CAT TGC TTT GGT GA - #T GCA CAG GAA GTA         GCC      685                                                                     Asp Val Arg Ala Thr Val His Cys Phe Gly As - #p Ala Gln Glu Val Ala                           195  - #               200  - #               205               - - TTC TAC CAT GAA TAC AGG GCA GGT GTT GAT TG - #G GTA TTT GTG GAC CAC           733                                                                        Phe Tyr His Glu Tyr Arg Ala Gly Val Asp Tr - #p Val Phe Val Asp His                        210      - #           215      - #           220                   - - TCT TCT TAC TGC AGA CCT GGA ACG CCA TAT GG - #T GAT ATT TAT GGT GCA           781                                                                        Ser Ser Tyr Cys Arg Pro Gly Thr Pro Tyr Gl - #y Asp Ile Tyr Gly Ala                    225          - #       230          - #       235                       - - TTT GGT GAT AAT CAG TTT CGC TTC ACT TTG CT - #T TCT CAC GCA GCA TGT           829                                                                        Phe Gly Asp Asn Gln Phe Arg Phe Thr Leu Le - #u Ser His Ala Ala Cys                240              - #   245              - #   250                           - - GAA GCG CCA TTG GTT CTT CCA CTG GGA GGG TT - #C ACT TAT GGA GAG AAG           877                                                                        Glu Ala Pro Leu Val Leu Pro Leu Gly Gly Ph - #e Thr Tyr Gly Glu Lys            255                 2 - #60                 2 - #65                 2 -       #70                                                                               - - TGC TTG TTT CTC GCT AAT GAT TGG CAT GCT GC - #C CTG GTT CCT TTA         CTT      925                                                                     Cys Leu Phe Leu Ala Asn Asp Trp His Ala Al - #a Leu Val Pro Leu Leu                           275  - #               280  - #               285               - - TTA GCG GCC AAG TAT CGT CCT TAT GGT GTT TA - #C AAG GAT GCT CGT AGT           973                                                                        Leu Ala Ala Lys Tyr Arg Pro Tyr Gly Val Ty - #r Lys Asp Ala Arg Ser                        290      - #           295      - #           300                   - - ATT GTC GCA ATA CAC AAC ATT GCA CAT CAG GG - #A GTG GAG CCT GCA GTA          1021                                                                        Ile Val Ala Ile His Asn Ile Ala His Gln Gl - #y Val Glu Pro Ala Val                    305          - #       310          - #       315                       - - ACC TAC AAT AAT TTG GGT TTG CCT CCA CAA TG - #G TAT GGA GCA GTT GAA          1069                                                                        Thr Tyr Asn Asn Leu Gly Leu Pro Pro Gln Tr - #p Tyr Gly Ala Val Glu                320              - #   325              - #   330                           - - TGG ATA TTT CCC ACA TGG GCA AGG GCG CAT GC - #G CTT GAC ACT GGT GAA          1117                                                                        Trp Ile Phe Pro Thr Trp Ala Arg Ala His Al - #a Leu Asp Thr Gly Glu            335                 3 - #40                 3 - #45                 3 -       #50                                                                               - - ACA GTG AAC GTT TTG AAA GGG GCA ATA GCA GT - #T GCT GAT CGG ATA         CTG     1165                                                                     Thr Val Asn Val Leu Lys Gly Ala Ile Ala Va - #l Ala Asp Arg Ile Leu                           355  - #               360  - #               365               - - ACA GTT AGC CAG GGA TAC TCA TGG GAA ATA AC - #A ACT CCT GAA GGG GGA          1213                                                                        Thr Val Ser Gln Gly Tyr Ser Trp Glu Ile Th - #r Thr Pro Glu Gly Gly                        370      - #           375      - #           380                   - - TAT GGG CTA CAT GAG CTG TTG AGC AGT AGA CA - #G TCT GTT CTT AAT GGA          1261                                                                        Tyr Gly Leu His Glu Leu Leu Ser Ser Arg Gl - #n Ser Val Leu Asn Gly                    385          - #       390          - #       395                       - - ATT ACT AAT GGA ATA GAT GTT AAT GAT TGG AA - #C CCG TCG ACA GAT GAG          1309                                                                        Ile Thr Asn Gly Ile Asp Val Asn Asp Trp As - #n Pro Ser Thr Asp Glu                400              - #   405              - #   410                           - - CAT ATT GCT TCG CAT TAC TCC ATC AAT GAC CT - #C TCC GGA AAG GTT CAG          1357                                                                        His Ile Ala Ser His Tyr Ser Ile Asn Asp Le - #u Ser Gly Lys Val Gln            415                 4 - #20                 4 - #25                 4 -       #30                                                                               - - TGC AAG ACT GAT CTG CAA AAG GAA CTG GGC CT - #T CCA ATT CGA CCT         GAT     1405                                                                     Cys Lys Thr Asp Leu Gln Lys Glu Leu Gly Le - #u Pro Ile Arg Pro Asp                           435  - #               440  - #               445               - - TGT CCT CTG ATT GGA TTT ATT GGA AGG CTG GA - #C TAC CAG AAA GGT GTT          1453                                                                        Cys Pro Leu Ile Gly Phe Ile Gly Arg Leu As - #p Tyr Gln Lys Gly Val                        450      - #           455      - #           460                   - - GAC ATA ATC CTG TCA GCA ATT CCA GAA CTT AT - #G CAG AAT GAT GTC CAA          1501                                                                        Asp Ile Ile Leu Ser Ala Ile Pro Glu Leu Me - #t Gln Asn Asp Val Gln                    465          - #       470          - #       475                       - - GTT GTA ATG CTT GGA TCT GGT GAG AAA CAA TA - #T GAA GAC TGG ATG AGA          1549                                                                        Val Val Met Leu Gly Ser Gly Glu Lys Gln Ty - #r Glu Asp Trp Met Arg                480              - #   485              - #   490                           - - CAT ACA GAA AAT CTT TTT AAA GAC AAA TTT CG - #T GCT TGG GTT GGA TTT          1597                                                                        His Thr Glu Asn Leu Phe Lys Asp Lys Phe Ar - #g Ala Trp Val Gly Phe            495                 5 - #00                 5 - #05                 5 -       #10                                                                               - - AAT GTT CCA GTT TCT CAT AGG ATA ACA GCA GG - #A TGC GAC ATA CTA         TTG     1645                                                                     Asn Val Pro Val Ser His Arg Ile Thr Ala Gl - #y Cys Asp Ile Leu Leu                           515  - #               520  - #               525               - - ATG CCC TCA AGA TTC GAA CCG TGT GGC TTA AA - #C CAA TTG TAT GCA ATG          1693                                                                        Met Pro Ser Arg Phe Glu Pro Cys Gly Leu As - #n Gln Leu Tyr Ala Met                        530      - #           535      - #           540                   - - AGA TAT GGC ACC ATA CCT ATT GTT CAT AGC AC - #G GGG GGC CTA AGA GAC          1741                                                                        Arg Tyr Gly Thr Ile Pro Ile Val His Ser Th - #r Gly Gly Leu Arg Asp                    545          - #       550          - #       555                       - - ACA GTG AAG GAT TTT AAT CCA TAT GCT CAA GA - #A GGA ATA GGT GAA GGT          1789                                                                        Thr Val Lys Asp Phe Asn Pro Tyr Ala Gln Gl - #u Gly Ile Gly Glu Gly                560              - #   565              - #   570                           - - ACC GGG TGG ACA TTT TCT CCT CTA ACG AGT GA - #A AAG TTG CTT GAT ACA          1837                                                                        Thr Gly Trp Thr Phe Ser Pro Leu Thr Ser Gl - #u Lys Leu Leu Asp Thr            575                 5 - #80                 5 - #85                 5 -       #90                                                                               - - CTG AAG CTG GCA ATC GGG ACT TAT ACA GAA CA - #T AAG TCA TCT TGG         GAG     1885                                                                     Leu Lys Leu Ala Ile Gly Thr Tyr Thr Glu Hi - #s Lys Ser Ser Trp Glu                           595  - #               600  - #               605               - - GGA TTG ATG AGG AGA GGT ATG GGA AGG GAC TA - #T TCC TGG GAA AAT GCA          1933                                                                        Gly Leu Met Arg Arg Gly Met Gly Arg Asp Ty - #r Ser Trp Glu Asn Ala                        610      - #           615      - #           620                   - - GCC ATT CAA TAT GAA CAA GTT TTC ACC TGG GC - #C TTT ATA GAT CCT CCA          1981                                                                        Ala Ile Gln Tyr Glu Gln Val Phe Thr Trp Al - #a Phe Ile Asp Pro Pro                    625          - #       630          - #       635                       - - TAT GTC AGA TGATTTATCA AGAAAGATTG CAAACGGGAT ACATCATTA - #A                  2030                                                                        Tyr Val Arg                                                                        640                                                                         - - ACTATACGCG GAGCTTTTGG TGCTATTAGC TACTGTCATT GGGCGCGGAA TG -              #TTTGTGGT   2090                                                                  - - TCTTTCTGAT TCAGAGAGAT CAAGTTAGTT CCAAAGACAT ACGTAGCCTG TC -             #CCTGTCTG   2150                                                                  - - TGAGGGAGTA AAACTACAAA AGGCAATTAG AAACCACCAA GAACTGGCTC CT -             #TTGGGAGA   2210                                                                  - - AGAGTGGAAA TATGTAAAAA AGAATTTTGA GTTTAATGTC AATTGATTAA TT -             #GTTCTCAT   2270                                                                  - - TTTTAAAAAA AACATCTCAT CTCATACAAT ATATAAAATT GATCATGATT GA -             #TGAAAAAA   2330                                                                  - - AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA         - #                  - #              2360                                                                      - -  - - (2) INFORMATION FOR SEQ ID NO: 10:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 641 amino - #acids                                                 (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #10:                           - - Met Gly Ser Leu Gln Thr Pro Thr Asn Leu Se - #r Asn Lys Ser Cys Leu         1               5 - #                 10 - #                 15               - - Cys Val Ser Gly Arg Val Val Lys Gly Leu Ar - #g Val Glu Arg Gln Val                    20     - #             25     - #             30                   - - Gly Leu Gly Phe Ser Trp Leu Leu Lys Gly Ar - #g Arg Asn Arg Lys Val                35         - #         40         - #         45                       - - Gln Ser Leu Cys Val Thr Ser Ser Val Ser As - #p Gly Ser Ser Ile Ala            50             - #     55             - #     60                           - - Glu Asn Lys Asn Val Ser Glu Gly Leu Leu Le - #u Gly Ala Glu Arg Asp        65                 - # 70                 - # 75                 - # 80        - - Gly Ser Gly Ser Val Val Gly Phe Gln Leu Il - #e Pro His Ser Val Ala                        85 - #                 90 - #                 95               - - Gly Asp Ala Thr Met Val Glu Ser His Asp Il - #e Val Ala Asn Asp Arg                   100      - #           105      - #           110                   - - Asp Asp Leu Ser Glu Asp Thr Glu Glu Met Gl - #u Glu Thr Pro Ile Lys               115          - #       120          - #       125                       - - Leu Thr Phe Asn Ile Ile Phe Val Thr Ala Gl - #u Ala Ala Pro Tyr Ser           130              - #   135              - #   140                           - - Lys Thr Gly Gly Leu Gly Asp Val Cys Gly Se - #r Leu Pro Met Ala Leu       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Ala Ala Arg Gly His Arg Val Met Val Val Se - #r Pro Arg Tyr Leu         Asn                                                                                              165  - #               170  - #               175              - - Gly Gly Pro Ser Asp Glu Lys Tyr Ala Asn Al - #a Val Asp Leu Asp Val                   180      - #           185      - #           190                   - - Arg Ala Thr Val His Cys Phe Gly Asp Ala Gl - #n Glu Val Ala Phe Tyr               195          - #       200          - #       205                       - - His Glu Tyr Arg Ala Gly Val Asp Trp Val Ph - #e Val Asp His Ser Ser           210              - #   215              - #   220                           - - Tyr Cys Arg Pro Gly Thr Pro Tyr Gly Asp Il - #e Tyr Gly Ala Phe Gly       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Asp Asn Gln Phe Arg Phe Thr Leu Leu Ser Hi - #s Ala Ala Cys Glu         Ala                                                                                              245  - #               250  - #               255              - - Pro Leu Val Leu Pro Leu Gly Gly Phe Thr Ty - #r Gly Glu Lys Cys Leu                   260      - #           265      - #           270                   - - Phe Leu Ala Asn Asp Trp His Ala Ala Leu Va - #l Pro Leu Leu Leu Ala               275          - #       280          - #       285                       - - Ala Lys Tyr Arg Pro Tyr Gly Val Tyr Lys As - #p Ala Arg Ser Ile Val           290              - #   295              - #   300                           - - Ala Ile His Asn Ile Ala His Gln Gly Val Gl - #u Pro Ala Val Thr Tyr       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Asn Asn Leu Gly Leu Pro Pro Gln Trp Tyr Gl - #y Ala Val Glu Trp         Ile                                                                                              325  - #               330  - #               335              - - Phe Pro Thr Trp Ala Arg Ala His Ala Leu As - #p Thr Gly Glu Thr Val                   340      - #           345      - #           350                   - - Asn Val Leu Lys Gly Ala Ile Ala Val Ala As - #p Arg Ile Leu Thr Val               355          - #       360          - #       365                       - - Ser Gln Gly Tyr Ser Trp Glu Ile Thr Thr Pr - #o Glu Gly Gly Tyr Gly           370              - #   375              - #   380                           - - Leu His Glu Leu Leu Ser Ser Arg Gln Ser Va - #l Leu Asn Gly Ile Thr       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Asn Gly Ile Asp Val Asn Asp Trp Asn Pro Se - #r Thr Asp Glu His         Ile                                                                                              405  - #               410  - #               415              - - Ala Ser His Tyr Ser Ile Asn Asp Leu Ser Gl - #y Lys Val Gln Cys Lys                   420      - #           425      - #           430                   - - Thr Asp Leu Gln Lys Glu Leu Gly Leu Pro Il - #e Arg Pro Asp Cys Pro               435          - #       440          - #       445                       - - Leu Ile Gly Phe Ile Gly Arg Leu Asp Tyr Gl - #n Lys Gly Val Asp Ile           450              - #   455              - #   460                           - - Ile Leu Ser Ala Ile Pro Glu Leu Met Gln As - #n Asp Val Gln Val Val       465                 4 - #70                 4 - #75                 4 -       #80                                                                               - - Met Leu Gly Ser Gly Glu Lys Gln Tyr Glu As - #p Trp Met Arg His         Thr                                                                                              485  - #               490  - #               495              - - Glu Asn Leu Phe Lys Asp Lys Phe Arg Ala Tr - #p Val Gly Phe Asn Val                   500      - #           505      - #           510                   - - Pro Val Ser His Arg Ile Thr Ala Gly Cys As - #p Ile Leu Leu Met Pro               515          - #       520          - #       525                       - - Ser Arg Phe Glu Pro Cys Gly Leu Asn Gln Le - #u Tyr Ala Met Arg Tyr           530              - #   535              - #   540                           - - Gly Thr Ile Pro Ile Val His Ser Thr Gly Gl - #y Leu Arg Asp Thr Val       545                 5 - #50                 5 - #55                 5 -       #60                                                                               - - Lys Asp Phe Asn Pro Tyr Ala Gln Glu Gly Il - #e Gly Glu Gly Thr         Gly                                                                                              565  - #               570  - #               575              - - Trp Thr Phe Ser Pro Leu Thr Ser Glu Lys Le - #u Leu Asp Thr Leu Lys                   580      - #           585      - #           590                   - - Leu Ala Ile Gly Thr Tyr Thr Glu His Lys Se - #r Ser Trp Glu Gly Leu               595          - #       600          - #       605                       - - Met Arg Arg Gly Met Gly Arg Asp Tyr Ser Tr - #p Glu Asn Ala Ala Ile           610              - #   615              - #   620                           - - Gln Tyr Glu Gln Val Phe Thr Trp Ala Phe Il - #e Asp Pro Pro Tyr Val       625                 6 - #30                 6 - #35                 6 -       #40                                                                               - - Arg                                                                        - -  - - (2) INFORMATION FOR SEQ ID NO: 11:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 4168 base - #pairs                                                 (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: single                                                       (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: cDNA to RNA                                        - -     (vi) ORIGINAL SOURCE:                                                           (A) ORGANISM: Solanum t - #uberosum                                            (B) STRAIN: cv. Dsire                                                          (F) TISSUE TYPE: leaf - #tissue                                       - -    (vii) IMMEDIATE SOURCE:                                                          (A) LIBRARY: cDNA-library - #in Lambda ZAPII                          - -     (ix) FEATURE:                                                                   (A) NAME/KEY: CDS                                                              (B) LOCATION:307..3897                                                - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #11:                           - - TTTTTTAATA GATTTTTAAA ACCCCATTAA AGCAAATACG TATATAATTG CA -             #GCACAGAT     60                                                                  - - ACAGAGAGGG AGAGAGAAAG ATAGTGTGTT GATGAAGGAG AAGAGAGATA TT -             #TCACATGG    120                                                                  - - GATGTTCTAT TTGATTCTGT GGTGAACAAG AGTTTTACAA AGAACATTCC TT -             #TTTCTTTT    180                                                                  - - TTTCTTGGTT CTTGTGTGGG TCAGCCATGG ATGTTCCATT TCCACTGCAT AG -             #ACCATTGA    240                                                                  - - GTTGCACAAG TGTCTCCAAT GCAATAACCC ACCTCAAGAT CAAACCTTTT CT -             #TGGGTTTG    300                                                                  - - TCTCTC ATG GAA CCA CAA GTC TAT CAG TAC AAT - #CTT CTT CAT GGA GGA            348                                                                               Met Glu Pro Gln Val Tyr Gl - #n Tyr Asn Leu Leu His Gly Gly                      1         - #      5            - #      10                            - - AGG ATG GAA ATG GTT ACT GGG GTT TCA TTT CC - #A TTT TGT GCA AAT CTC           396                                                                        Arg Met Glu Met Val Thr Gly Val Ser Phe Pr - #o Phe Cys Ala Asn Leu             15                 - # 20                 - # 25                 - # 30        - - TCG GGA AGA AGA CGG AGA AAA GTT TCA ACT AC - #T AGG AGT CAA GGA TCT           444                                                                        Ser Gly Arg Arg Arg Arg Lys Val Ser Thr Th - #r Arg Ser Gln Gly Ser                             35 - #                 40 - #                 45               - - TCA CCT AAG GGG TTT GTG CCA AGG AAG CCC TC - #A GGG ATG AGC ACG CAA           492                                                                        Ser Pro Lys Gly Phe Val Pro Arg Lys Pro Se - #r Gly Met Ser Thr Gln                         50     - #             55     - #             60                   - - AGA AAG GTT CAG AAG AGC AAT GGT GAT AAA GA - #A AGT CAA AGT ACT TCA           540                                                                        Arg Lys Val Gln Lys Ser Asn Gly Asp Lys Gl - #u Ser Gln Ser Thr Ser                     65         - #         70         - #         75                       - - ACA TCT AAA GAA TCT GAA ATT TCC AAC CAG AA - #G ACG GTT GAA GCA AGA           588                                                                        Thr Ser Lys Glu Ser Glu Ile Ser Asn Gln Ly - #s Thr Val Glu Ala Arg                 80             - #     85             - #     90                           - - GTT GAA ACT AGT GAC GAT GAC ACT AAA GTA GT - #G GTG AGG GAC CAC AAG           636                                                                        Val Glu Thr Ser Asp Asp Asp Thr Lys Val Va - #l Val Arg Asp His Lys             95                 - #100                 - #105                 - #110        - - TTT CTG GAG GAT GAG GAT GAA ATC AAT GGT TC - #T ACT AAA TCA ATA AGT           684                                                                        Phe Leu Glu Asp Glu Asp Glu Ile Asn Gly Se - #r Thr Lys Ser Ile Ser                            115  - #               120  - #               125               - - ATG TCA CCT GTT CGT GTA TCA TCT CAA TTT GT - #T GAA AGT GAA GAA ACT           732                                                                        Met Ser Pro Val Arg Val Ser Ser Gln Phe Va - #l Glu Ser Glu Glu Thr                        130      - #           135      - #           140                   - - GGT GGT GAT GAC AAG GAT GCT GTA AAG TTA AA - #C AAA TCA AAG AGA TCG           780                                                                        Gly Gly Asp Asp Lys Asp Ala Val Lys Leu As - #n Lys Ser Lys Arg Ser                    145          - #       150          - #       155                       - - GAA GAG AGT GAT TTT CTA ATT GAT TCT GTA AT - #A AGA GAA CAA AGT GGA           828                                                                        Glu Glu Ser Asp Phe Leu Ile Asp Ser Val Il - #e Arg Glu Gln Ser Gly                160              - #   165              - #   170                           - - TCT CAG GGG GAA ACT AAT GCC AGT AGC AAG GG - #A AGC CAT GCT GTG GGT           876                                                                        Ser Gln Gly Glu Thr Asn Ala Ser Ser Lys Gl - #y Ser His Ala Val Gly            175                 1 - #80                 1 - #85                 1 -       #90                                                                               - - ACA AAA CTT TAT GAG ATA TTG CAG GTG GAT GT - #T GAG CCA CAA CAA         TTG      924                                                                     Thr Lys Leu Tyr Glu Ile Leu Gln Val Asp Va - #l Glu Pro Gln Gln Leu                           195  - #               200  - #               205               - - AAA GAA AAT AAT GCT GGG AAT GTT GAA TAC AA - #A GGA CCT GTA GCA AGT           972                                                                        Lys Glu Asn Asn Ala Gly Asn Val Glu Tyr Ly - #s Gly Pro Val Ala Ser                        210      - #           215      - #           220                   - - AAG CTA TTG GAA ATT ACT AAG GCT AGT GAT GT - #G GAA CAC ACT GAA AGC          1020                                                                        Lys Leu Leu Glu Ile Thr Lys Ala Ser Asp Va - #l Glu His Thr Glu Ser                    225          - #       230          - #       235                       - - AAT GAG ATT GAT GAC TTA GAC ACT AAT AGT TT - #C TTT AAA TCA GAT TTA          1068                                                                        Asn Glu Ile Asp Asp Leu Asp Thr Asn Ser Ph - #e Phe Lys Ser Asp Leu                240              - #   245              - #   250                           - - ATT GAA GAG GAT GAG CCA TTA GCT GCA GGA AC - #A GTG GAG ACT GGA GAT          1116                                                                        Ile Glu Glu Asp Glu Pro Leu Ala Ala Gly Th - #r Val Glu Thr Gly Asp            255                 2 - #60                 2 - #65                 2 -       #70                                                                               - - TCT TCT CTA AAC TTA AGA TTG GAG ATG GAA GC - #A AAT CTA CGT AGG         CAG     1164                                                                     Ser Ser Leu Asn Leu Arg Leu Glu Met Glu Al - #a Asn Leu Arg Arg Gln                           275  - #               280  - #               285               - - GCT ATA GAA AGG CTT GCC GAG GAA AAT TTA TT - #G CAA GGG ATC AGA TTA          1212                                                                        Ala Ile Glu Arg Leu Ala Glu Glu Asn Leu Le - #u Gln Gly Ile Arg Leu                        290      - #           295      - #           300                   - - TTT TGT TTT CCA GAG GTT GTA AAA CCT GAT GA - #A GAT GTC GAG ATA TTT          1260                                                                        Phe Cys Phe Pro Glu Val Val Lys Pro Asp Gl - #u Asp Val Glu Ile Phe                    305          - #       310          - #       315                       - - CTT AAC AGA GGT CTT TCC ACT TTG AAG AAT GA - #G TCT GAT GTC TTG ATT          1308                                                                        Leu Asn Arg Gly Leu Ser Thr Leu Lys Asn Gl - #u Ser Asp Val Leu Ile                320              - #   325              - #   330                           - - ATG GGA GCT TTT AAT GAG TGG CGC TAT AGG TC - #T TTT ACT ACA AGG CTA          1356                                                                        Met Gly Ala Phe Asn Glu Trp Arg Tyr Arg Se - #r Phe Thr Thr Arg Leu            335                 3 - #40                 3 - #45                 3 -       #50                                                                               - - ACT GAG ACT CAT CTC AAT GGA GAT TGG TGG TC - #T TGC AAG ATC CAT         GTT     1404                                                                     Thr Glu Thr His Leu Asn Gly Asp Trp Trp Se - #r Cys Lys Ile His Val                           355  - #               360  - #               365               - - CCC AAG GAA GCA TAC AGG GCT GAT TTT GTG TT - #T TTT AAT GGA CAA GAT          1452                                                                        Pro Lys Glu Ala Tyr Arg Ala Asp Phe Val Ph - #e Phe Asn Gly Gln Asp                        370      - #           375      - #           380                   - - GTC TAT GAC AAC AAT GAT GGA AAT GAC TTC AG - #T ATA ACT GTG AAA GGT          1500                                                                        Val Tyr Asp Asn Asn Asp Gly Asn Asp Phe Se - #r Ile Thr Val Lys Gly                    385          - #       390          - #       395                       - - GGT ATG CAA ATC ATT GAC TTT GAA AAT TTC TT - #G CTT GAG GAG AAA TGG          1548                                                                        Gly Met Gln Ile Ile Asp Phe Glu Asn Phe Le - #u Leu Glu Glu Lys Trp                400              - #   405              - #   410                           - - AGA GAA CAG GAG AAA CTT GCT AAA GAA CAA GC - #T GAA AGA GAA AGA CTA          1596                                                                        Arg Glu Gln Glu Lys Leu Ala Lys Glu Gln Al - #a Glu Arg Glu Arg Leu            415                 4 - #20                 4 - #25                 4 -       #30                                                                               - - GCG GAA GAA CAA AGA CGA ATA GAA GCA GAG AA - #A GCT GAA ATT GAA         GCT     1644                                                                     Ala Glu Glu Gln Arg Arg Ile Glu Ala Glu Ly - #s Ala Glu Ile Glu Ala                           435  - #               440  - #               445               - - GAC AGA GCA CAA GCA AAG GAA GAG GCT GCA AA - #G AAA AAG AAA GTA TTG          1692                                                                        Asp Arg Ala Gln Ala Lys Glu Glu Ala Ala Ly - #s Lys Lys Lys Val Leu                        450      - #           455      - #           460                   - - CGA GAA TTG ATG GTA AAA GCC ACG AAG ACT CG - #T GAT ATC ACG TGG TAC          1740                                                                        Arg Glu Leu Met Val Lys Ala Thr Lys Thr Ar - #g Asp Ile Thr Trp Tyr                    465          - #       470          - #       475                       - - ATA GAG CCA AGT GAA TTT AAA TGC GAG GAC AA - #G GTC AGG TTA TAC TAT          1788                                                                        Ile Glu Pro Ser Glu Phe Lys Cys Glu Asp Ly - #s Val Arg Leu Tyr Tyr                480              - #   485              - #   490                           - - AAC AAA AGT TCA GGT CCT CTC TCC CAT GCT AA - #G GAC TTG TGG ATC CAC          1836                                                                        Asn Lys Ser Ser Gly Pro Leu Ser His Ala Ly - #s Asp Leu Trp Ile His            495                 5 - #00                 5 - #05                 5 -       #10                                                                               - - GGA GGA TAT AAT AAT TGG AAG GAT GGT TTG TC - #T ATT GTC AAA AAG         CTT     1884                                                                     Gly Gly Tyr Asn Asn Trp Lys Asp Gly Leu Se - #r Ile Val Lys Lys Leu                           515  - #               520  - #               525               - - GTT AAA TCT GAG AGA ATA GAT GGT GAT TGG TG - #G TAT ACA GAG GTT GTT          1932                                                                        Val Lys Ser Glu Arg Ile Asp Gly Asp Trp Tr - #p Tyr Thr Glu Val Val                        530      - #           535      - #           540                   - - ATT CCT GAT CAG GCA CTT TTC TTG GAT TGG GT - #T TTT GCT GAT GGT CCA          1980                                                                        Ile Pro Asp Gln Ala Leu Phe Leu Asp Trp Va - #l Phe Ala Asp Gly Pro                    545          - #       550          - #       555                       - - CCC AAG CAT GCC ATT GCT TAT GAT AAC AAT CA - #C CGC CAA GAC TTC CAT          2028                                                                        Pro Lys His Ala Ile Ala Tyr Asp Asn Asn Hi - #s Arg Gln Asp Phe His                560              - #   565              - #   570                           - - GCC ATT GTC CCC AAC CAC ATT CCG GAG GAA TT - #A TAT TGG GTT GAG GAA          2076                                                                        Ala Ile Val Pro Asn His Ile Pro Glu Glu Le - #u Tyr Trp Val Glu Glu            575                 5 - #80                 5 - #85                 5 -       #90                                                                               - - GAA CAT CAG ATC TTT AAG ACA CTT CAG GAG GA - #G AGA AGG CTT AGA         GAA     2124                                                                     Glu His Gln Ile Phe Lys Thr Leu Gln Glu Gl - #u Arg Arg Leu Arg Glu                           595  - #               600  - #               605               - - GCG GCT ATG CGT GCT AAG GTT GAA AAA ACA GC - #A CTT CTG AAA ACT GAA          2172                                                                        Ala Ala Met Arg Ala Lys Val Glu Lys Thr Al - #a Leu Leu Lys Thr Glu                        610      - #           615      - #           620                   - - ACA AAG GAA AGA ACT ATG AAA TCA TTT TTA CT - #G TCT CAG AAG CAT GTA          2220                                                                        Thr Lys Glu Arg Thr Met Lys Ser Phe Leu Le - #u Ser Gln Lys His Val                    625          - #       630          - #       635                       - - GTA TAT ACT GAG CCT CTT GAT ATC CAA GCT GG - #A AGC AGC GTC ACA GTT          2268                                                                        Val Tyr Thr Glu Pro Leu Asp Ile Gln Ala Gl - #y Ser Ser Val Thr Val                640              - #   645              - #   650                           - - TAC TAT AAT CCC GCC AAT ACA GTA CTT AAT GG - #T AAA CCT GAA ATT TGG          2316                                                                        Tyr Tyr Asn Pro Ala Asn Thr Val Leu Asn Gl - #y Lys Pro Glu Ile Trp            655                 6 - #60                 6 - #65                 6 -       #70                                                                               - - TTC AGA TGT TCA TTT AAT CGC TGG ACT CAC CG - #C CTG GGT CCA TTG         CCA     2364                                                                     Phe Arg Cys Ser Phe Asn Arg Trp Thr His Ar - #g Leu Gly Pro Leu Pro                           675  - #               680  - #               685               - - CCT CAG AAA ATG TCG CCT GCT GAA AAT GGC AC - #C CAT GTC AGA GCA ACT          2412                                                                        Pro Gln Lys Met Ser Pro Ala Glu Asn Gly Th - #r His Val Arg Ala Thr                        690      - #           695      - #           700                   - - GTG AAG GTT CCA TTG GAT GCA TAT ATG ATG GA - #T TTT GTA TTT TCC GAG          2460                                                                        Val Lys Val Pro Leu Asp Ala Tyr Met Met As - #p Phe Val Phe Ser Glu                    705          - #       710          - #       715                       - - AGA GAA GAT GGT GGG ATT TTT GAC AAT AAG AG - #C GGA ATG GAC TAT CAC          2508                                                                        Arg Glu Asp Gly Gly Ile Phe Asp Asn Lys Se - #r Gly Met Asp Tyr His                720              - #   725              - #   730                           - - ATA CCT GTG TTT GGA GGA GTC GCT AAA GAA CC - #T CCA ATG CAT ATT GTC          2556                                                                        Ile Pro Val Phe Gly Gly Val Ala Lys Glu Pr - #o Pro Met His Ile Val            735                 7 - #40                 7 - #45                 7 -       #50                                                                               - - CAT ATT GCT GTC GAA ATG GCA CCA ATT GCA AA - #G GTG GGA GGC CTT         GGT     2604                                                                     His Ile Ala Val Glu Met Ala Pro Ile Ala Ly - #s Val Gly Gly Leu Gly                           755  - #               760  - #               765               - - GAT GTT GTT ACT AGT CTT TCC CGT GCT GTT CA - #A GAT TTA AAC CAT AAT          2652                                                                        Asp Val Val Thr Ser Leu Ser Arg Ala Val Gl - #n Asp Leu Asn His Asn                        770      - #           775      - #           780                   - - GTG GAT ATT ATC TTA CCT AAG TAT GAC TGT TT - #G AAG ATG AAT AAT GTG          2700                                                                        Val Asp Ile Ile Leu Pro Lys Tyr Asp Cys Le - #u Lys Met Asn Asn Val                    785          - #       790          - #       795                       - - AAG GAC TTT CGG TTT CAC AAA AAC TAC TTT TG - #G GGT GGG ACT GAA ATA          2748                                                                        Lys Asp Phe Arg Phe His Lys Asn Tyr Phe Tr - #p Gly Gly Thr Glu Ile                800              - #   805              - #   810                           - - AAA GTA TGG TTT GGA AAG GTG GAA GGT CTC TC - #G GTC TAT TTT TTG GAG          2796                                                                        Lys Val Trp Phe Gly Lys Val Glu Gly Leu Se - #r Val Tyr Phe Leu Glu            815                 8 - #20                 8 - #25                 8 -       #30                                                                               - - CCT CAA AAC GGG TTA TTT TCG AAA GGG TGC GT - #C TAT GGT TGT AGC         AAT     2844                                                                     Pro Gln Asn Gly Leu Phe Ser Lys Gly Cys Va - #l Tyr Gly Cys Ser Asn                           835  - #               840  - #               845               - - GAT GGT GAA CGA TTT GGT TTC TTC TGT CAC GC - #G GCT TTG GAG TTT CTT          2892                                                                        Asp Gly Glu Arg Phe Gly Phe Phe Cys His Al - #a Ala Leu Glu Phe Leu                        850      - #           855      - #           860                   - - CTG CAA GGT GGA TTT AGT CCG GAT ATC ATT CA - #T TGC CAT GAT TGG TCT          2940                                                                        Leu Gln Gly Gly Phe Ser Pro Asp Ile Ile Hi - #s Cys His Asp Trp Ser                    865          - #       870          - #       875                       - - AGT GCT CCT GTT GCT TGG CTC TTT AAG GAA CA - #A TAT ACA CAC TAT GGT          2988                                                                        Ser Ala Pro Val Ala Trp Leu Phe Lys Glu Gl - #n Tyr Thr His Tyr Gly                880              - #   885              - #   890                           - - CTA AGC AAA TCT CGT ATA GTC TTC ACG ATA CA - #T AAT CTT GAA TTT GGG          3036                                                                        Leu Ser Lys Ser Arg Ile Val Phe Thr Ile Hi - #s Asn Leu Glu Phe Gly            895                 9 - #00                 9 - #05                 9 -       #10                                                                               - - GCA GAT CTC ATT GGG AGA GCA ATG ACT AAC GC - #A GAC AAA GCT ACA         ACA     3084                                                                     Ala Asp Leu Ile Gly Arg Ala Met Thr Asn Al - #a Asp Lys Ala Thr Thr                           915  - #               920  - #               925               - - GTT TCA CCA ACT TAC TCA CAG GAG GTG TCT GG - #A AAC CCT GTA ATT GCG          3132                                                                        Val Ser Pro Thr Tyr Ser Gln Glu Val Ser Gl - #y Asn Pro Val Ile Ala                        930      - #           935      - #           940                   - - CCT CAC CTT CAC AAG TTC CAT GGT ATA GTG AA - #T GGG ATT GAC CCA GAT          3180                                                                        Pro His Leu His Lys Phe His Gly Ile Val As - #n Gly Ile Asp Pro Asp                    945          - #       950          - #       955                       - - ATT TGG GAT CCT TTA AAC GAT AAG TTC ATT CC - #G ATT CCG TAC ACC TCA          3228                                                                        Ile Trp Asp Pro Leu Asn Asp Lys Phe Ile Pr - #o Ile Pro Tyr Thr Ser                960              - #   965              - #   970                           - - GAA AAC GTT GTT GAA GGC AAA ACA GCA GCC AA - #G GAA GCT TTG CAG CGA          3276                                                                        Glu Asn Val Val Glu Gly Lys Thr Ala Ala Ly - #s Glu Ala Leu Gln Arg            975                 9 - #80                 9 - #85                 9 -       #90                                                                               - - AAA CTT GGA CTG AAA CAG GCT GAC CTT CCT TT - #G GTA GGA ATT ATC         ACC     3324                                                                     Lys Leu Gly Leu Lys Gln Ala Asp Leu Pro Le - #u Val Gly Ile Ile Thr                           995  - #               1000  - #              1005              - - CGC TTA ACT CAC CAG AAA GGA ATC CAC CTC AT - #T AAA CAT GCT ATT TGG          3372                                                                        Arg Leu Thr His Gln Lys Gly Ile His Leu Il - #e Lys His Ala Ile Trp                        1010     - #           1015      - #          1020                  - - CGC ACC TTG GAA CGG AAC GGA CAG GTA GTC TT - #G CTT GGT TCT GCT CCT          3420                                                                        Arg Thr Leu Glu Arg Asn Gly Gln Val Val Le - #u Leu Gly Ser Ala Pro                    1025         - #       1030          - #      1035                      - - GAT CCT AGG GTA CAA AAC GAT TTT GTT AAT TT - #G GCA AAT CAA TTG CAC          3468                                                                        Asp Pro Arg Val Gln Asn Asp Phe Val Asn Le - #u Ala Asn Gln Leu His                1040             - #   1045              - #  1050                          - - TCC AAA TAT AAT GAC CGC GCA CGA CTC TGT CT - #A ACA TAT GAC GAG CCA          3516                                                                        Ser Lys Tyr Asn Asp Arg Ala Arg Leu Cys Le - #u Thr Tyr Asp Glu Pro            1055                1060 - #                1065 - #               1070         - - CTT TCT CAC CTG ATA TAT GCT GGT GCT GAT TT - #T ATT CTA GTT CCT TCA          3564                                                                        Leu Ser His Leu Ile Tyr Ala Gly Ala Asp Ph - #e Ile Leu Val Pro Ser                            1075 - #               1080  - #              1085              - - ATA TTT GAG CCA TGT GGA CTA ACA CAA CTT AC - #C GCT ATG AGA TAT GGT          3612                                                                        Ile Phe Glu Pro Cys Gly Leu Thr Gln Leu Th - #r Ala Met Arg Tyr Gly                        1090     - #           1095      - #          1100                  - - TCA ATT CCA GTC GTG CGT AAA ACT GGA GGA CT - #T TAT GAT ACT GTA TTT          3660                                                                        Ser Ile Pro Val Val Arg Lys Thr Gly Gly Le - #u Tyr Asp Thr Val Phe                    1105         - #       1110          - #      1115                      - - GAT GTT GAC CAT GAC AAA GAG AGA GCA CAA CA - #G TGT GGT CTT GAA CCA          3708                                                                        Asp Val Asp His Asp Lys Glu Arg Ala Gln Gl - #n Cys Gly Leu Glu Pro                1120             - #   1125              - #  1130                          - - AAT GGA TTC AGC TTT GAT GGA GCA GAT GCT GG - #C GGA GTT GAT TAT GCT          3756                                                                        Asn Gly Phe Ser Phe Asp Gly Ala Asp Ala Gl - #y Gly Val Asp Tyr Ala            1135                1140 - #                1145 - #               1150         - - CTG AAT AGA GCT CTC TCT GCT TGG TAC GAT GG - #T CGG GAT TGG TTC AAC          3804                                                                        Leu Asn Arg Ala Leu Ser Ala Trp Tyr Asp Gl - #y Arg Asp Trp Phe Asn                            1155 - #               1160  - #              1165              - - TCT TTA TGC AAG CAG GTC ATG GAA CAA GAT TG - #G TCT TGG AAC CGA CCT          3852                                                                        Ser Leu Cys Lys Gln Val Met Glu Gln Asp Tr - #p Ser Trp Asn Arg Pro                        1170     - #           1175      - #          1180                  - - GCT CTT GAT TAT TTG GAG CTT TAC CAT GCT GC - #T AGA AAG TTA GAA              3897                                                                        Ala Leu Asp Tyr Leu Glu Leu Tyr His Ala Al - #a Arg Lys Leu Glu                        1185         - #       1190          - #      1195                      - - TAGTTAGTTT GTGAGATGCT AGCAGAAAAA TTCACGAGAT CTGCAATCTG TA -              #CAGGTTCA   3957                                                                  - - GTGTTTGCGT CTGGACAGCT TTTTTATTTC CTATATCAAA GTATAAATCA AG -             #TCTACACT   4017                                                                  - - GAGATCAATA GCAGACAGTC CTCAGTTCAT TTCATTTTTT GTGCAACATA TG -             #AAAGAGCT   4077                                                                  - - TAGCCTCTAA TAATGTAGTC ATTGATGATT ATTTGTTTTG GGAAGAAATG AG -             #AAATCAAA   4137                                                                  - - GGATGCAAAA TACTCTGAAA AAAAAAAAAA A        - #                  - #             4168                                                                      - -  - - (2) INFORMATION FOR SEQ ID NO: 12:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 1197 amino - #acids                                                (B) TYPE: amino acid                                                           (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: protein                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #12:                           - - Met Glu Pro Gln Val Tyr Gln Tyr Asn Leu Le - #u His Gly Gly Arg Met         1               5 - #                 10 - #                 15               - - Glu Met Val Thr Gly Val Ser Phe Pro Phe Cy - #s Ala Asn Leu Ser Gly                    20     - #             25     - #             30                   - - Arg Arg Arg Arg Lys Val Ser Thr Thr Arg Se - #r Gln Gly Ser Ser Pro                35         - #         40         - #         45                       - - Lys Gly Phe Val Pro Arg Lys Pro Ser Gly Me - #t Ser Thr Gln Arg Lys            50             - #     55             - #     60                           - - Val Gln Lys Ser Asn Gly Asp Lys Glu Ser Gl - #n Ser Thr Ser Thr Ser        65                 - # 70                 - # 75                 - # 80        - - Lys Glu Ser Glu Ile Ser Asn Gln Lys Thr Va - #l Glu Ala Arg Val Glu                        85 - #                 90 - #                 95               - - Thr Ser Asp Asp Asp Thr Lys Val Val Val Ar - #g Asp His Lys Phe Leu                   100      - #           105      - #           110                   - - Glu Asp Glu Asp Glu Ile Asn Gly Ser Thr Ly - #s Ser Ile Ser Met Ser               115          - #       120          - #       125                       - - Pro Val Arg Val Ser Ser Gln Phe Val Glu Se - #r Glu Glu Thr Gly Gly           130              - #   135              - #   140                           - - Asp Asp Lys Asp Ala Val Lys Leu Asn Lys Se - #r Lys Arg Ser Glu Glu       145                 1 - #50                 1 - #55                 1 -       #60                                                                               - - Ser Asp Phe Leu Ile Asp Ser Val Ile Arg Gl - #u Gln Ser Gly Ser         Gln                                                                                              165  - #               170  - #               175              - - Gly Glu Thr Asn Ala Ser Ser Lys Gly Ser Hi - #s Ala Val Gly Thr Lys                   180      - #           185      - #           190                   - - Leu Tyr Glu Ile Leu Gln Val Asp Val Glu Pr - #o Gln Gln Leu Lys Glu               195          - #       200          - #       205                       - - Asn Asn Ala Gly Asn Val Glu Tyr Lys Gly Pr - #o Val Ala Ser Lys Leu           210              - #   215              - #   220                           - - Leu Glu Ile Thr Lys Ala Ser Asp Val Glu Hi - #s Thr Glu Ser Asn Glu       225                 2 - #30                 2 - #35                 2 -       #40                                                                               - - Ile Asp Asp Leu Asp Thr Asn Ser Phe Phe Ly - #s Ser Asp Leu Ile         Glu                                                                                              245  - #               250  - #               255              - - Glu Asp Glu Pro Leu Ala Ala Gly Thr Val Gl - #u Thr Gly Asp Ser Ser                   260      - #           265      - #           270                   - - Leu Asn Leu Arg Leu Glu Met Glu Ala Asn Le - #u Arg Arg Gln Ala Ile               275          - #       280          - #       285                       - - Glu Arg Leu Ala Glu Glu Asn Leu Leu Gln Gl - #y Ile Arg Leu Phe Cys           290              - #   295              - #   300                           - - Phe Pro Glu Val Val Lys Pro Asp Glu Asp Va - #l Glu Ile Phe Leu Asn       305                 3 - #10                 3 - #15                 3 -       #20                                                                               - - Arg Gly Leu Ser Thr Leu Lys Asn Glu Ser As - #p Val Leu Ile Met         Gly                                                                                              325  - #               330  - #               335              - - Ala Phe Asn Glu Trp Arg Tyr Arg Ser Phe Th - #r Thr Arg Leu Thr Glu                   340      - #           345      - #           350                   - - Thr His Leu Asn Gly Asp Trp Trp Ser Cys Ly - #s Ile His Val Pro Lys               355          - #       360          - #       365                       - - Glu Ala Tyr Arg Ala Asp Phe Val Phe Phe As - #n Gly Gln Asp Val Tyr           370              - #   375              - #   380                           - - Asp Asn Asn Asp Gly Asn Asp Phe Ser Ile Th - #r Val Lys Gly Gly Met       385                 3 - #90                 3 - #95                 4 -       #00                                                                               - - Gln Ile Ile Asp Phe Glu Asn Phe Leu Leu Gl - #u Glu Lys Trp Arg         Glu                                                                                              405  - #               410  - #               415              - - Gln Glu Lys Leu Ala Lys Glu Gln Ala Glu Ar - #g Glu Arg Leu Ala Glu                   420      - #           425      - #           430                   - - Glu Gln Arg Arg Ile Glu Ala Glu Lys Ala Gl - #u Ile Glu Ala Asp Arg               435          - #       440          - #       445                       - - Ala Gln Ala Lys Glu Glu Ala Ala Lys Lys Ly - #s Lys Val Leu Arg Glu           450              - #   455              - #   460                           - - Leu Met Val Lys Ala Thr Lys Thr Arg Asp Il - #e Thr Trp Tyr Ile Glu       465                 4 - #70                 4 - #75                 4 -       #80                                                                               - - Pro Ser Glu Phe Lys Cys Glu Asp Lys Val Ar - #g Leu Tyr Tyr Asn         Lys                                                                                              485  - #               490  - #               495              - - Ser Ser Gly Pro Leu Ser His Ala Lys Asp Le - #u Trp Ile His Gly Gly                   500      - #           505      - #           510                   - - Tyr Asn Asn Trp Lys Asp Gly Leu Ser Ile Va - #l Lys Lys Leu Val Lys               515          - #       520          - #       525                       - - Ser Glu Arg Ile Asp Gly Asp Trp Trp Tyr Th - #r Glu Val Val Ile Pro           530              - #   535              - #   540                           - - Asp Gln Ala Leu Phe Leu Asp Trp Val Phe Al - #a Asp Gly Pro Pro Lys       545                 5 - #50                 5 - #55                 5 -       #60                                                                               - - His Ala Ile Ala Tyr Asp Asn Asn His Arg Gl - #n Asp Phe His Ala         Ile                                                                                              565  - #               570  - #               575              - - Val Pro Asn His Ile Pro Glu Glu Leu Tyr Tr - #p Val Glu Glu Glu His                   580      - #           585      - #           590                   - - Gln Ile Phe Lys Thr Leu Gln Glu Glu Arg Ar - #g Leu Arg Glu Ala Ala               595          - #       600          - #       605                       - - Met Arg Ala Lys Val Glu Lys Thr Ala Leu Le - #u Lys Thr Glu Thr Lys           610              - #   615              - #   620                           - - Glu Arg Thr Met Lys Ser Phe Leu Leu Ser Gl - #n Lys His Val Val Tyr       625                 6 - #30                 6 - #35                 6 -       #40                                                                               - - Thr Glu Pro Leu Asp Ile Gln Ala Gly Ser Se - #r Val Thr Val Tyr         Tyr                                                                                              645  - #               650  - #               655              - - Asn Pro Ala Asn Thr Val Leu Asn Gly Lys Pr - #o Glu Ile Trp Phe Arg                   660      - #           665      - #           670                   - - Cys Ser Phe Asn Arg Trp Thr His Arg Leu Gl - #y Pro Leu Pro Pro Gln               675          - #       680          - #       685                       - - Lys Met Ser Pro Ala Glu Asn Gly Thr His Va - #l Arg Ala Thr Val Lys           690              - #   695              - #   700                           - - Val Pro Leu Asp Ala Tyr Met Met Asp Phe Va - #l Phe Ser Glu Arg Glu       705                 7 - #10                 7 - #15                 7 -       #20                                                                               - - Asp Gly Gly Ile Phe Asp Asn Lys Ser Gly Me - #t Asp Tyr His Ile         Pro                                                                                              725  - #               730  - #               735              - - Val Phe Gly Gly Val Ala Lys Glu Pro Pro Me - #t His Ile Val His Ile                   740      - #           745      - #           750                   - - Ala Val Glu Met Ala Pro Ile Ala Lys Val Gl - #y Gly Leu Gly Asp Val               755          - #       760          - #       765                       - - Val Thr Ser Leu Ser Arg Ala Val Gln Asp Le - #u Asn His Asn Val Asp           770              - #   775              - #   780                           - - Ile Ile Leu Pro Lys Tyr Asp Cys Leu Lys Me - #t Asn Asn Val Lys Asp       785                 7 - #90                 7 - #95                 8 -       #00                                                                               - - Phe Arg Phe His Lys Asn Tyr Phe Trp Gly Gl - #y Thr Glu Ile Lys         Val                                                                                              805  - #               810  - #               815              - - Trp Phe Gly Lys Val Glu Gly Leu Ser Val Ty - #r Phe Leu Glu Pro Gln                   820      - #           825      - #           830                   - - Asn Gly Leu Phe Ser Lys Gly Cys Val Tyr Gl - #y Cys Ser Asn Asp Gly               835          - #       840          - #       845                       - - Glu Arg Phe Gly Phe Phe Cys His Ala Ala Le - #u Glu Phe Leu Leu Gln           850              - #   855              - #   860                           - - Gly Gly Phe Ser Pro Asp Ile Ile His Cys Hi - #s Asp Trp Ser Ser Ala       865                 8 - #70                 8 - #75                 8 -       #80                                                                               - - Pro Val Ala Trp Leu Phe Lys Glu Gln Tyr Th - #r His Tyr Gly Leu         Ser                                                                                              885  - #               890  - #               895              - - Lys Ser Arg Ile Val Phe Thr Ile His Asn Le - #u Glu Phe Gly Ala Asp                   900      - #           905      - #           910                   - - Leu Ile Gly Arg Ala Met Thr Asn Ala Asp Ly - #s Ala Thr Thr Val Ser               915          - #       920          - #       925                       - - Pro Thr Tyr Ser Gln Glu Val Ser Gly Asn Pr - #o Val Ile Ala Pro His           930              - #   935              - #   940                           - - Leu His Lys Phe His Gly Ile Val Asn Gly Il - #e Asp Pro Asp Ile Trp       945                 9 - #50                 9 - #55                 9 -       #60                                                                               - - Asp Pro Leu Asn Asp Lys Phe Ile Pro Ile Pr - #o Tyr Thr Ser Glu         Asn                                                                                              965  - #               970  - #               975              - - Val Val Glu Gly Lys Thr Ala Ala Lys Glu Al - #a Leu Gln Arg Lys Leu                   980      - #           985      - #           990                   - - Gly Leu Lys Gln Ala Asp Leu Pro Leu Val Gl - #y Ile Ile Thr Arg Leu               995          - #       1000          - #      1005                      - - Thr His Gln Lys Gly Ile His Leu Ile Lys Hi - #s Ala Ile Trp Arg Thr           1010             - #   1015              - #  1020                          - - Leu Glu Arg Asn Gly Gln Val Val Leu Leu Gl - #y Ser Ala Pro Asp Pro       1025                1030 - #                1035 - #               1040         - - Arg Val Gln Asn Asp Phe Val Asn Leu Ala As - #n Gln Leu His Ser Lys                       1045 - #               1050  - #              1055              - - Tyr Asn Asp Arg Ala Arg Leu Cys Leu Thr Ty - #r Asp Glu Pro Leu Ser                   1060     - #           1065      - #          1070                  - - His Leu Ile Tyr Ala Gly Ala Asp Phe Ile Le - #u Val Pro Ser Ile Phe               1075         - #       1080          - #      1085                      - - Glu Pro Cys Gly Leu Thr Gln Leu Thr Ala Me - #t Arg Tyr Gly Ser Ile           1090             - #   1095              - #  1100                          - - Pro Val Val Arg Lys Thr Gly Gly Leu Tyr As - #p Thr Val Phe Asp Val       1105                1110 - #                1115 - #               1120         - - Asp His Asp Lys Glu Arg Ala Gln Gln Cys Gl - #y Leu Glu Pro Asn Gly                       1125 - #               1130  - #              1135              - - Phe Ser Phe Asp Gly Ala Asp Ala Gly Gly Va - #l Asp Tyr Ala Leu Asn                   1140     - #           1145      - #          1150                  - - Arg Ala Leu Ser Ala Trp Tyr Asp Gly Arg As - #p Trp Phe Asn Ser Leu               1155         - #       1160          - #      1165                      - - Cys Lys Gln Val Met Glu Gln Asp Trp Ser Tr - #p Asn Arg Pro Ala Leu           1170             - #   1175              - #  1180                          - - Asp Tyr Leu Glu Leu Tyr His Ala Ala Arg Ly - #s Leu Glu                   1185                1190 - #                1195                                - -  - - (2) INFORMATION FOR SEQ ID NO: 13:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 12 amino - #acids                                                  (B) TYPE: amino acid                                                           (C) STRANDEDNESS:                                                              (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: peptide                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #13:                           - - Gly Thr Gly Gly Leu Arg Asp Thr Val Glu As - #n Cys                       1               5   - #                10                                       - -  - - (2) INFORMATION FOR SEQ ID NO: 14:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 30 base - #pairs                                                   (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: single                                                       (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: other nucleic acid                                          (A) DESCRIPTION:  /desc - # = "Oligonucleotide"                       - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #14:                           - - ACAGGATCCT GTGCTATGCG GCGTGTGAAG         - #                  - #                30                                                                       - -  - - (2) INFORMATION FOR SEQ ID NO: 15:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 32 base - #pairs                                                   (B) TYPE: nucleotide                                                           (C) STRANDEDNESS: single                                                       (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: other nucleic acid                                          (A) DESCRIPTION:  /desc - # = "Oligonucleotide"                       - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #15:                           - - TTGGGATCCG CAATGCCCAC AGCATTTTTT TC       - #                  - #               32                                                                       - -  - - (2) INFORMATION FOR SEQ ID NO: 16:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 12 amino - #acids                                                  (B) TYPE: amino acid                                                           (C) STRANDEDNESS:                                                              (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: Peptide                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #16:                           - - Pro Trp Ser Lys Thr Gly Gly Leu Gly Asp Va - #l Cys                       1               5   - #                10                                       - -  - - (2) INFORMATION FOR SEQ ID NO: 17:                                    - -      (i) SEQUENCE CHARACTERISTICS:                                                  (A) LENGTH: 13 amino - #acids                                                  (B) TYPE: amino acid                                                           (C) STRANDEDNESS:                                                              (D) TOPOLOGY: linear                                                  - -     (ii) MOLECULE TYPE: Peptide                                            - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO: - #17:                           - - Pro Ser Arg Phe Glu Pro Cys Gly Leu Asn Gl - #n Leu Tyr                   1               5   - #                10                                     __________________________________________________________________________ 

What is claimed is:
 1. An isolated DNA molecule encoding a protein with the biological activity of a starch synthase or activity for modifying starch metabolism in a plant or plant cell, said DNA molecule selected from the group consisting of:(a) a DNA molecule encoding a protein having the amino acid sequence of SEQ ID NO. 8; (b) a DNA molecule comprising the nucleotide sequence of SEQ ID NO. 7; (c) a DNA molecule comprising a nucleotide sequence differing from the sequence of the DNA molecules of (a) or (b) due to the degeneracy of the genetic code; (d) a DNA molecule comprising a DNA sequence which hybridizes under stringent conditions to any one of the DNA molecules of (a), (b) or (c) or fragment thereof, and which is more than 90% homologous to the DNA molecule of (a), (b), or (c) or fragment thereof, wherein said DNA sequence encodes a protein with the biological activity of a starch synthase of isotype II (GBSSII) or a biologically active fragment thereof, or encodes a protein with activity for modifying starch metabolism in a plant or plant cell; (e) a DNA molecule encoding a protein having the amino acid sequence of SEQ ID NO: 10; (f) a DNA molecule comprising the nucleotide sequence of SEQ ID NO: 9; (g) a DNA molecule comprising a nucleotide sequence differing from the sequence of any one of the DNA molecules of (e) or (f) due to the degeneracy of the genetic code; (h) a DNA molecule comprising a DNA sequence which hybridizes under stringent conditions to any one of the DNA molecules of (e), (f) or (g) or fragment thereof, and which is more than 90% homologous to the DNA molecule of (e), (f), or (g) or fragment thereof, wherein said DNA sequence encodes a protein with the biological activity of a soluble starch synthase of isotype B (SSSB) or a biologically active fragment thereof, or encodes a protein with activity for modifying starch metabolism in a plant or plant cell; (i) a DNA molecule encoding a protein having the amino acid sequence of SEQ ID NO: 12; (k) a DNA molecule comprising the nucleotide sequence of SEQ ID NO: 11; (l) a DNA molecule comprising a nucleotide sequence differing from the sequence of the DNA molecules of (i) or (k) due to the degeneracy of the genetic code; and (m) a DNA molecule comprising a DNA sequence which hybridizes under stringent conditions to any one of the DNA molecules of (i), (k) or (l) or fragment thereof, and which is more than 90% homologous to the DNA molecule of (i), (k), or (l) or fragment thereof, wherein said DNA sequence encodes a protein with the biological activity of a soluble starch synthase of isotype A (SSSA) or a biologically active fragment thereof, or encodes a protein with activity for modifying starch metabolism in a plant or plant cell.
 2. The isolated DNA molecule according to claim 1, wherein the DNA sequence encodes a protein with the biological activity of a soluble starch synthase of isotype A (SSSA), wherein the protein encoded by said DNA sequence is recognized by an antibody that is directed against the peptideNH2-GTGGLRDTVENC-COOH (SEQ ID NO: 13).
 3. A vector comprising a DNA molecule according to claim 1 or
 2. 4. The vector according to claim 3, wherein the DNA molecule is linked in sense orientation to DNA elements ensuring transcription of a translatable RNA in prokaryotic or eukaryotic cells.
 5. A host cell comprising a vector according to claim
 3. 6. A method for producing a protein or a biologically active fragment thereof encoded by a DNA molecule according to claim 1 or 2 or a vector comprising the DNA molecule, comprising the step of cultivating a host cell comprising the DNA molecule or the vector under conditions that allow the synthesis of the protein.
 7. An isolated DNA molecule according to claim 1, wherein the DNA sequence is selected from the group consisting of the coding region of SEQ ID NO:7, the coding region of SEQ ID NO:9, and the coding region of SEQ ID NO:11.
 8. The isolated DNA molecule according to claim 1, wherein the DNA sequence encodes a protein comprising the amino acid sequence selected from the group consisting of SEQ ID NO:8, SEQ ID NO:10 and SEQ ID NO:12.
 9. A plant cell comprising a DNA molecule according to any one of claims 1, 2, 7 or 8 linked to a heterologous promoter.
 10. A plant comprising a plant cell according to claim
 9. 11. The plant according to claim 10, wherein the plant is a crop plant.
 12. The plant according to claim 11, wherein the plant is a starch-storing plant.
 13. The plant according to claim 12, wherein the plant is a potato plant.
 14. A propagation material of a plant comprising a plant cell according to claim
 9. 15. The isolated DNA molecule according to claim 1, wherein the DNA sequence is more than 95% homologous to the coding region of SEQ ID NOS: 7, 9 or
 11. 